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04fd1a6397
fpc/compiler/hlcgobj.pas
Jonas Maebe d69ad8fa41 * removed temppos field again from parameter locations: they're not allocated 
by the temp manager of the current procedure

git-svn-id: trunk@38858 -
2018-04-27 19:18:55 +00:00

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{
Copyright (c) 1998-2010 by Florian Klaempfl and Jonas Maebe
Member of the Free Pascal development team
This unit implements the basic high level code generator object
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
****************************************************************************
}
{# @abstract(Abstract code generator unit)
Abstract high level code generator unit. This contains the base class
that either lowers most code to the regular code generator, or that
has to be implemented/overridden for higher level targets (such as LLVM).
}
unit hlcgobj;
{$i fpcdefs.inc}
{ define hlcginline}
interface
uses
cclasses,globtype,constexp,
cpubase,cgbase,cgutils,parabase,
aasmbase,aasmtai,aasmdata,aasmcpu,
symconst,symbase,symtype,symsym,symdef,
node,nutils,
tgobj
;
type
tsubsetloadopt = (SL_REG,SL_REGNOSRCMASK,SL_SETZERO,SL_SETMAX);
preplaceregrec = ^treplaceregrec;
treplaceregrec = record
old, new: tregister;
oldhi, newhi: tregister;
ressym: tsym;
{ moved sym }
sym : tabstractnormalvarsym;
end;
{# @abstract(Abstract high level code generator)
This class implements an abstract instruction generator. All
methods of this class are generic and are mapped to low level code
generator methods by default. They have to be overridden for higher
level targets
}
{ thlcgobj }
thlcgobj = class
public
{************************************************}
{ basic routines }
constructor create;
{# Initialize the register allocators needed for the codegenerator.}
procedure init_register_allocators;virtual;
{# Clean up the register allocators needed for the codegenerator.}
procedure done_register_allocators;virtual;
{# Set whether live_start or live_end should be updated when allocating registers, needed when e.g. generating initcode after the rest of the code. }
procedure set_regalloc_live_range_direction(dir: TRADirection);virtual;
{# Gets a register suitable to do integer operations on.}
function getintregister(list:TAsmList;size:tdef):Tregister;virtual;
{# Gets a register suitable to do integer operations on.}
function getaddressregister(list:TAsmList;size:tdef):Tregister;virtual;
function getfpuregister(list:TAsmList;size:tdef):Tregister;virtual;
{ warning: only works correctly for fpu types currently }
function getmmregister(list:TAsmList;size:tdef):Tregister;virtual;
function getflagregister(list:TAsmList;size:tdef):Tregister;virtual;
function gettempregister(list:TAsmList;size:tdef):Tregister;virtual;
function getregisterfordef(list: TAsmList;size:tdef):Tregister;virtual;
{Does the generic cg need SIMD registers, like getmmxregister? Or should
the cpu specific child cg object have such a method?}
function uses_registers(rt:Tregistertype):boolean; inline;
{# Get a specific register.}
procedure getcpuregister(list:TAsmList;r:Tregister);virtual;
procedure ungetcpuregister(list:TAsmList;r:Tregister);virtual;
{# Get multiple registers specified.}
procedure alloccpuregisters(list:TAsmList;rt:Tregistertype;const r:Tcpuregisterset);virtual;
{# Free multiple registers specified.}
procedure dealloccpuregisters(list:TAsmList;rt:Tregistertype;const r:Tcpuregisterset);virtual;
procedure allocallcpuregisters(list:TAsmList);virtual;
procedure deallocallcpuregisters(list:TAsmList);virtual;
procedure do_register_allocation(list:TAsmList;headertai:tai); inline;
procedure translate_register(var reg : tregister); inline;
{# Returns the kind of register this type should be loaded in (it does not
check whether this is actually possible, but if it's loaded in a register
by the compiler for any purpose other than parameter passing/function
result loading, this is the register type used) }
class function def2regtyp(def: tdef): tregistertype; virtual;
{# Returns a reference with its base address set from a pointer that
has been loaded in a register.
A generic version is provided. This routine should be overridden
on platforms which support pointers with different sizes (for
example i8086 near and far pointers) or require some other sort of
special consideration when converting a pointer in a register to a
reference.
@param(ref where the result is returned)
@param(regsize the type of the pointer, contained in the reg parameter)
@param(reg register containing the value of a pointer)
}
procedure reference_reset_base(var ref: treference; regsize: tdef; reg: tregister; offset: longint; temppos: treftemppos; alignment: longint; volatility: tvolatilityset); virtual;
{# Emit a label to the instruction stream. }
procedure a_label(list : TAsmList;l : tasmlabel); inline;
{# Allocates register r by inserting a pai_realloc record }
procedure a_reg_alloc(list : TAsmList;r : tregister); inline;
{# Deallocates register r by inserting a pa_regdealloc record}
procedure a_reg_dealloc(list : TAsmList;r : tregister); inline;
{ Synchronize register, make sure it is still valid }
procedure a_reg_sync(list : TAsmList;r : tregister); inline;
{# Pass a parameter, which is located in a register, to a routine.
This routine should push/send the parameter to the routine, as
required by the specific processor ABI and routine modifiers.
It must generate register allocation information for the cgpara in
case it consists of cpuregisters.
@param(size size of the operand in the register)
@param(r register source of the operand)
@param(cgpara where the parameter will be stored)
}
procedure a_load_reg_cgpara(list : TAsmList;size : tdef;r : tregister;const cgpara : TCGPara);virtual;
{# Pass a parameter, which is a constant, to a routine.
A generic version is provided. This routine should
be overridden for optimization purposes if the cpu
permits directly sending this type of parameter.
It must generate register allocation information for the cgpara in
case it consists of cpuregisters.
@param(size size of the operand in constant)
@param(a value of constant to send)
@param(cgpara where the parameter will be stored)
}
procedure a_load_const_cgpara(list : TAsmList;tosize : tdef;a : tcgint;const cgpara : TCGPara);virtual;
{# Pass the value of a parameter, which is located in memory, to a routine.
A generic version is provided. This routine should
be overridden for optimization purposes if the cpu
permits directly sending this type of parameter.
It must generate register allocation information for the cgpara in
case it consists of cpuregisters.
@param(size size of the operand in constant)
@param(r Memory reference of value to send)
@param(cgpara where the parameter will be stored)
}
procedure a_load_ref_cgpara(list : TAsmList;size : tdef;const r : treference;const cgpara : TCGPara);virtual;
{# Pass the value of a parameter, which can be located either in a register or memory location,
to a routine.
A generic version is provided.
@param(l location of the operand to send)
@param(nr parameter number (starting from one) of routine (from left to right))
@param(cgpara where the parameter will be stored)
}
procedure a_load_loc_cgpara(list : TAsmList;size : tdef; const l : tlocation;const cgpara : TCGPara);virtual;
{# Pass the address of a reference to a routine. This routine
will calculate the address of the reference, and pass this
calculated address as a parameter.
It must generate register allocation information for the cgpara in
case it consists of cpuregisters.
A generic version is provided. This routine should
be overridden for optimization purposes if the cpu
permits directly sending this type of parameter.
@param(fromsize type of the reference we are taking the address of)
@param(tosize type of the pointer that we get as a result)
@param(r reference to get address from)
}
procedure a_loadaddr_ref_cgpara(list : TAsmList;fromsize : tdef;const r : treference;const cgpara : TCGPara);virtual;
{ Remarks:
* If a method specifies a size you have only to take care
of that number of bits, i.e. load_const_reg with OP_8 must
only load the lower 8 bit of the specified register
the rest of the register can be undefined
if necessary the compiler will call a method
to zero or sign extend the register
* The a_load_XX_XX with OP_64 needn't to be
implemented for 32 bit
processors, the code generator takes care of that
* the addr size is for work with the natural pointer
size
* the procedures without fpu/mm are only for integer usage
* normally the first location is the source and the
second the destination
}
{# Emits instruction to call the method specified by symbol name.
Returns the function result location.
This routine must be overridden for each new target cpu.
}
function a_call_name(list : TAsmList;pd : tprocdef;const s : TSymStr; const paras: array of pcgpara; forceresdef: tdef; weak: boolean): tcgpara;virtual;abstract;
function a_call_reg(list : TAsmList;pd : tabstractprocdef;reg : tregister; const paras: array of pcgpara): tcgpara;virtual;abstract;
{ same as a_call_name, might be overridden on certain architectures to emit
static calls without usage of a got trampoline }
function a_call_name_static(list : TAsmList;pd : tprocdef;const s : TSymStr; const paras: array of pcgpara; forceresdef: tdef): tcgpara;virtual;
{ same as a_call_name, might be overridden on certain architectures to emit
special static calls for inherited methods }
function a_call_name_inherited(list : TAsmList;pd : tprocdef;const s : TSymStr; const paras: array of pcgpara): tcgpara;virtual;
{ move instructions }
procedure a_load_const_reg(list : TAsmList;tosize : tdef;a : tcgint;register : tregister);virtual;abstract;
procedure a_load_const_ref(list : TAsmList;tosize : tdef;a : tcgint;const ref : treference);virtual;
procedure a_load_const_loc(list : TAsmList;tosize : tdef;a : tcgint;const loc : tlocation);virtual;
procedure a_load_reg_ref(list : TAsmList;fromsize, tosize : tdef;register : tregister;const ref : treference);virtual;abstract;
procedure a_load_reg_ref_unaligned(list : TAsmList;fromsize, tosize : tdef;register : tregister;const ref : treference);virtual;
procedure a_load_reg_reg(list : TAsmList;fromsize, tosize : tdef;reg1,reg2 : tregister);virtual;abstract;
procedure a_load_reg_loc(list : TAsmList;fromsize, tosize : tdef;reg : tregister;const loc: tlocation);virtual;
procedure a_load_ref_reg(list : TAsmList;fromsize, tosize : tdef;const ref : treference;register : tregister);virtual;abstract;
procedure a_load_ref_reg_unaligned(list : TAsmList;fromsize, tosize : tdef;const ref : treference;register : tregister);virtual;
procedure a_load_ref_ref(list : TAsmList;fromsize, tosize : tdef;const sref : treference;const dref : treference);virtual;
procedure a_load_loc_reg(list : TAsmList;fromsize, tosize : tdef; const loc: tlocation; reg : tregister);virtual;
procedure a_load_loc_ref(list : TAsmList;fromsize, tosize: tdef; const loc: tlocation; const ref : treference);virtual;
procedure a_load_loc_subsetreg(list : TAsmList;fromsize, tosubsetsize: tdef; const loc: tlocation; const sreg : tsubsetregister);virtual;
procedure a_load_loc_subsetref(list : TAsmList;fromsize, tosubsetsize: tdef; const loc: tlocation; const sref : tsubsetreference);virtual;
procedure a_loadaddr_ref_reg(list : TAsmList;fromsize, tosize : tdef;const ref : treference;r : tregister);virtual;abstract;
{ For subsetreg/ref, the def is the size of the packed element. The
size of the register that holds the data is a tcgsize, and hence
always must be an orddef of the corresponding size in practice }
procedure a_load_subsetreg_reg(list : TAsmList; subsetsize, tosize: tdef; const sreg: tsubsetregister; destreg: tregister); virtual;
procedure a_load_reg_subsetreg(list : TAsmList; fromsize, tosubsetsize: tdef; fromreg: tregister; const sreg: tsubsetregister); virtual;
procedure a_load_subsetreg_subsetreg(list: TAsmlist; fromsubsetsize, tosubsetsize : tdef; const fromsreg, tosreg: tsubsetregister); virtual;
procedure a_load_subsetreg_ref(list : TAsmList; fromsubsetsize, tosize: tdef; const sreg: tsubsetregister; const destref: treference); virtual;
procedure a_load_ref_subsetreg(list : TAsmList; fromsize, tosubsetsize: tdef; const fromref: treference; const sreg: tsubsetregister); virtual;
procedure a_load_const_subsetreg(list: TAsmlist; tosubsetsize: tdef; a: tcgint; const sreg: tsubsetregister); virtual;
procedure a_load_subsetreg_loc(list: TAsmlist; fromsubsetsize, tosize: tdef; const sreg: tsubsetregister; const loc: tlocation); virtual;
procedure a_load_subsetref_reg(list : TAsmList; fromsubsetsize, tosize: tdef; const sref: tsubsetreference; destreg: tregister); virtual;
procedure a_load_reg_subsetref(list : TAsmList; fromsize, tosubsetsize: tdef; fromreg: tregister; const sref: tsubsetreference); virtual;
procedure a_load_subsetref_subsetref(list: TAsmlist; fromsubsetsize, tosubsetsize : tdef; const fromsref, tosref: tsubsetreference); virtual;
procedure a_load_subsetref_ref(list : TAsmList; fromsubsetsize, tosize: tdef; const sref: tsubsetreference; const destref: treference); virtual;
procedure a_load_ref_subsetref(list : TAsmList; fromsize, tosubsetsize: tdef; const fromref: treference; const sref: tsubsetreference); virtual;
procedure a_load_const_subsetref(list: TAsmlist; tosubsetsize: tdef; a: tcgint; const sref: tsubsetreference); virtual;
procedure a_load_subsetref_loc(list: TAsmlist; fromsubsetsize, tosize: tdef; const sref: tsubsetreference; const loc: tlocation); virtual;
procedure a_load_subsetref_subsetreg(list: TAsmlist; fromsubsetsize, tosubsetsize : tdef; const fromsref: tsubsetreference; const tosreg: tsubsetregister); virtual;
procedure a_load_subsetreg_subsetref(list: TAsmlist; fromsubsetsize, tosubsetsize : tdef; const fromsreg: tsubsetregister; const tosref: tsubsetreference); virtual;
{ bit test instructions }
procedure a_bit_test_reg_reg_reg(list : TAsmList; bitnumbersize,valuesize,destsize: tdef;bitnumber,value,destreg: tregister); virtual;
procedure a_bit_test_const_ref_reg(list: TAsmList; fromsize, destsize: tdef; bitnumber: aint; const ref: treference; destreg: tregister); virtual;
procedure a_bit_test_const_reg_reg(list: TAsmList; setregsize, destsize: tdef; bitnumber: aint; setreg, destreg: tregister); virtual;
procedure a_bit_test_const_subsetreg_reg(list: TAsmList; fromsubsetsize, destsize: tdef; bitnumber: aint; const setreg: tsubsetregister; destreg: tregister); virtual;
procedure a_bit_test_reg_ref_reg(list: TAsmList; bitnumbersize, refsize, destsize: tdef; bitnumber: tregister; const ref: treference; destreg: tregister); virtual;
procedure a_bit_test_reg_loc_reg(list: TAsmList; bitnumbersize, locsize, destsize: tdef; bitnumber: tregister; const loc: tlocation; destreg: tregister);virtual;
procedure a_bit_test_const_loc_reg(list: TAsmList; locsize, destsize: tdef; bitnumber: aint; const loc: tlocation; destreg: tregister);virtual;
{ bit set/clear instructions }
procedure a_bit_set_reg_reg(list : TAsmList; doset: boolean; bitnumbersize, destsize: tdef; bitnumber,dest: tregister); virtual;
procedure a_bit_set_const_ref(list: TAsmList; doset: boolean;destsize: tdef; bitnumber: tcgint; const ref: treference); virtual;
procedure a_bit_set_const_reg(list: TAsmList; doset: boolean; destsize: tdef; bitnumber: tcgint; destreg: tregister); virtual;
procedure a_bit_set_const_subsetreg(list: TAsmList; doset: boolean; destsize: tdef; bitnumber: tcgint; const destreg: tsubsetregister); virtual;
procedure a_bit_set_reg_ref(list: TAsmList; doset: boolean; fromsize, tosize: tdef; bitnumber: tregister; const ref: treference); virtual;
procedure a_bit_set_reg_loc(list: TAsmList; doset: boolean; regsize, tosize: tdef; bitnumber: tregister; const loc: tlocation);virtual;
procedure a_bit_set_const_loc(list: TAsmList; doset: boolean; tosize: tdef; bitnumber: tcgint; const loc: tlocation);virtual;
function get_call_result_cgpara(pd: tabstractprocdef; forceresdef: tdef): tcgpara; virtual;
protected
procedure get_subsetref_load_info(const sref: tsubsetreference; out loadsize: torddef; out extra_load: boolean);
procedure a_load_subsetref_regs_noindex(list: TAsmList; subsetsize: tdef; loadbitsize: byte; const sref: tsubsetreference; valuereg, extra_value_reg: tregister); virtual;
procedure a_load_subsetref_regs_index(list: TAsmList; subsetsize: tdef; loadbitsize: byte; const sref: tsubsetreference; valuereg: tregister); virtual;
procedure a_load_regconst_subsetref_intern(list : TAsmList; fromsize, subsetsize: tdef; fromreg: tregister; const sref: tsubsetreference; slopt: tsubsetloadopt); virtual;
procedure a_load_regconst_subsetreg_intern(list : TAsmList; fromsize, subsetsize: tdef; fromreg: tregister; const sreg: tsubsetregister; slopt: tsubsetloadopt); virtual;
{ return a subsetref that represents bit "bitnumber" in ref, if ref
has the type "refdef". The subsetref must be addressable via
(unsigned) 8 bit access, unless all the *_bit_* methods are
overloaded and use something else. }
function get_bit_const_ref_sref(bitnumber: tcgint; refdef: tdef; const ref: treference): tsubsetreference;
function get_bit_const_reg_sreg(setregsize: tdef; bitnumber: tcgint; setreg: tregister): tsubsetregister;
function get_bit_reg_ref_sref(list: TAsmList; bitnumbersize, refsize: tdef; bitnumber: tregister; const ref: treference): tsubsetreference;
public
{ bit scan instructions (still need transformation to thlcgobj) }
procedure a_bit_scan_reg_reg(list: TAsmList; reverse: boolean; srcsize, dstsize: tdef; src, dst: tregister); virtual; abstract;
{ fpu move instructions }
procedure a_loadfpu_reg_reg(list: TAsmList; fromsize, tosize: tdef; reg1, reg2: tregister); virtual; abstract;
procedure a_loadfpu_ref_reg(list: TAsmList; fromsize, tosize: tdef; const ref: treference; reg: tregister); virtual; abstract;
procedure a_loadfpu_reg_ref(list: TAsmList; fromsize, tosize: tdef; reg: tregister; const ref: treference); virtual; abstract;
procedure a_loadfpu_ref_ref(list: TAsmList; fromsize, tosize: tdef; const ref1,ref2: treference);virtual;
procedure a_loadfpu_loc_reg(list: TAsmList; fromsize, tosize: tdef; const loc: tlocation; const reg: tregister);virtual;
procedure a_loadfpu_loc_ref(list: TAsmList; fromsize, tosize: tdef; const loc: tlocation; const ref: treference);virtual;
procedure a_loadfpu_reg_loc(list: TAsmList; fromsize, tosize: tdef; const reg: tregister; const loc: tlocation);virtual;
procedure a_loadfpu_reg_cgpara(list : TAsmList;fromsize: tdef;const r : tregister;const cgpara : TCGPara);virtual;
procedure a_loadfpu_ref_cgpara(list : TAsmList;fromsize : tdef;const ref : treference;const cgpara : TCGPara);virtual;
{ vector register move instructions }
procedure a_loadmm_reg_reg(list: TAsmList; fromsize, tosize: tdef;reg1, reg2: tregister;shuffle : pmmshuffle); virtual; abstract;
procedure a_loadmm_ref_reg(list: TAsmList; fromsize, tosize: tdef;const ref: treference; reg: tregister;shuffle : pmmshuffle); virtual; abstract;
procedure a_loadmm_reg_ref(list: TAsmList; fromsize, tosize: tdef;reg: tregister; const ref: treference;shuffle : pmmshuffle); virtual; abstract;
procedure a_loadmm_ref_ref(list: TAsmList; fromsize, tosize: tdef; const fromref, toref: treference; shuffle: pmmshuffle); virtual;
{ required for subsetreg/ref; still tcgsize rather than tdef because of reason mentioned above }
procedure a_loadmm_loc_reg(list: TAsmList; fromsize, tosize: tdef; const loc: tlocation; const reg: tregister; shuffle : pmmshuffle);virtual;
procedure a_loadmm_reg_loc(list: TAsmList; fromsize, tosize: tdef; const reg: tregister; const loc: tlocation;shuffle : pmmshuffle);virtual;
procedure a_loadmm_loc_ref(list: TAsmList; fromsize, tosize: tdef; const loc: tlocation; const ref: treference; shuffle : pmmshuffle);virtual;
procedure a_loadmm_reg_cgpara(list: TAsmList; fromsize: tdef; reg: tregister;const cgpara : TCGPara;shuffle : pmmshuffle); virtual;
procedure a_loadmm_ref_cgpara(list: TAsmList; fromsize: tdef; const ref: treference;const cgpara : TCGPara;shuffle : pmmshuffle); virtual;
procedure a_loadmm_loc_cgpara(list: TAsmList; fromsize: tdef; const loc: tlocation; const cgpara : TCGPara;shuffle : pmmshuffle); virtual;
procedure a_opmm_reg_reg(list: TAsmList; Op: TOpCG; size : tdef;src,dst: tregister;shuffle : pmmshuffle); virtual; abstract;
procedure a_opmm_ref_reg(list: TAsmList; Op: TOpCG; size : tdef;const ref: treference; reg: tregister;shuffle : pmmshuffle); virtual;
procedure a_opmm_loc_reg(list: TAsmList; Op: TOpCG; size : tdef;const loc: tlocation; reg: tregister;shuffle : pmmshuffle); virtual;
procedure a_opmm_reg_ref(list: TAsmList; Op: TOpCG; size : tdef;reg: tregister;const ref: treference; shuffle : pmmshuffle); virtual;
{ requires a temp that is interpreted in two different ways, and we
don't have a way (yet) to tag a treference with tdef information so
targets like LLVM can insert the necessary bitcast
}
procedure a_loadmm_intreg_reg(list: TAsmList; fromsize, tosize : tdef; intreg, mmreg: tregister; shuffle: pmmshuffle); virtual; abstract;
procedure a_loadmm_reg_intreg(list: TAsmList; fromsize, tosize : tdef; mmreg, intreg: tregister; shuffle : pmmshuffle); virtual; abstract;
{ basic arithmetic operations }
{ note: for operators which require only one argument (not, neg), use }
{ the op_reg_reg, op_reg_ref or op_reg_loc methods and keep in mind }
{ that in this case the *second* operand is used as both source and }
{ destination (JM) }
procedure a_op_const_reg(list : TAsmList; Op: TOpCG; size: tdef; a: tcgint; reg: TRegister); virtual; abstract;
procedure a_op_const_ref(list : TAsmList; Op: TOpCG; size: tdef; a: tcgint; const ref: TReference); virtual;
procedure a_op_const_subsetreg(list : TAsmList; Op : TOpCG; size, subsetsize : tdef; a : tcgint; const sreg: tsubsetregister); virtual;
procedure a_op_const_subsetref(list : TAsmList; Op : TOpCG; size, subsetsize : tdef; a : tcgint; const sref: tsubsetreference); virtual;
procedure a_op_const_loc(list : TAsmList; Op: TOpCG; size: tdef; a: tcgint; const loc: tlocation);virtual;
procedure a_op_reg_reg(list : TAsmList; Op: TOpCG; size: tdef; reg1, reg2: TRegister); virtual; abstract;
procedure a_op_reg_ref(list : TAsmList; Op: TOpCG; size: tdef; reg: TRegister; const ref: TReference); virtual;
procedure a_op_ref_reg(list : TAsmList; Op: TOpCG; size: tdef; const ref: TReference; reg: TRegister); virtual;
procedure a_op_reg_subsetreg(list: TAsmList; Op: TOpCG; opsize, destsubsetsize: tdef; reg: TRegister; const sreg: tsubsetregister); virtual;
procedure a_op_reg_subsetref(list: TAsmList; Op: TOpCG; opsize, destsubsetsize: tdef; reg: TRegister; const sref: tsubsetreference); virtual;
procedure a_op_reg_loc(list : TAsmList; Op: TOpCG; size: tdef; reg: tregister; const loc: tlocation);virtual;
procedure a_op_ref_loc(list : TAsmList; Op: TOpCG; size: tdef; const ref: TReference; const loc: tlocation);virtual;
{ trinary operations for processors that support them, 'emulated' }
{ on others. None with "ref" arguments since I don't think there }
{ are any processors that support it (JM) }
procedure a_op_const_reg_reg(list: TAsmList; op: TOpCg; size: tdef; a: tcgint; src, dst: tregister); virtual;
procedure a_op_reg_reg_reg(list: TAsmList; op: TOpCg; size: tdef; src1, src2, dst: tregister); virtual;
procedure a_op_const_reg_reg_checkoverflow(list: TAsmList; op: TOpCg; size: tdef; a: tcgint; src, dst: tregister;setflags : boolean;var ovloc : tlocation); virtual;
procedure a_op_reg_reg_reg_checkoverflow(list: TAsmList; op: TOpCg; size: tdef; src1, src2, dst: tregister;setflags : boolean;var ovloc : tlocation); virtual;
{ comparison operations }
procedure a_cmp_const_reg_label(list : TAsmList;size : tdef;cmp_op : topcmp;a : tcgint;reg : tregister;
l : tasmlabel);virtual;
procedure a_cmp_const_ref_label(list : TAsmList;size : tdef;cmp_op : topcmp;a : tcgint;const ref : treference;
l : tasmlabel); virtual;
procedure a_cmp_const_loc_label(list: TAsmList; size: tdef;cmp_op: topcmp; a: tcgint; const loc: tlocation;
l : tasmlabel);virtual;
procedure a_cmp_reg_reg_label(list : TAsmList;size : tdef;cmp_op : topcmp;reg1,reg2 : tregister;l : tasmlabel); virtual; abstract;
procedure a_cmp_ref_reg_label(list : TAsmList;size : tdef;cmp_op : topcmp; const ref: treference; reg : tregister; l : tasmlabel); virtual;
procedure a_cmp_reg_ref_label(list : TAsmList;size : tdef;cmp_op : topcmp;reg : tregister; const ref: treference; l : tasmlabel); virtual;
procedure a_cmp_subsetreg_reg_label(list: TAsmList; fromsubsetsize, cmpsize: tdef; cmp_op: topcmp; const sreg: tsubsetregister; reg: tregister; l: tasmlabel); virtual;
procedure a_cmp_subsetref_reg_label(list: TAsmList; fromsubsetsize, cmpsize: tdef; cmp_op: topcmp; const sref: tsubsetreference; reg: tregister; l: tasmlabel); virtual;
procedure a_cmp_loc_reg_label(list : TAsmList;size : tdef;cmp_op : topcmp; const loc: tlocation; reg : tregister; l : tasmlabel);virtual;
procedure a_cmp_reg_loc_label(list : TAsmList;size : tdef;cmp_op : topcmp; reg: tregister; const loc: tlocation; l : tasmlabel);
procedure a_cmp_ref_loc_label(list: TAsmList; size: tdef;cmp_op: topcmp; const ref: treference; const loc: tlocation; l : tasmlabel);virtual;
procedure a_jmp_always(list : TAsmList;l: tasmlabel); virtual;abstract;
{$ifdef cpuflags}
procedure a_jmp_flags(list : TAsmList;const f : TResFlags;l: tasmlabel); virtual; abstract;
{# Depending on the value to check in the flags, either sets the register reg to one (if the flag is set)
or zero (if the flag is cleared). The size parameter indicates the destination size register.
}
procedure g_flags2reg(list: TAsmList; size: tdef; const f: tresflags; reg: TRegister); virtual; abstract;
procedure g_flags2ref(list: TAsmList; size: tdef; const f: tresflags; const ref:TReference); virtual; abstract;
{$endif cpuflags}
{#
This routine is used in exception management nodes. It should
save the exception reason currently in the reg. The
save should be done either to a temp (pointed to by href).
or on the stack (pushing the value on the stack).
}
procedure g_exception_reason_save(list : TAsmList; fromsize, tosize: tdef; reg: tregister; const href : treference);virtual;
{#
This routine is used in exception management nodes. It should
save the exception reason constant. The
save should be done either to a temp (pointed to by href).
or on the stack (pushing the value on the stack).
The size of the value to save is OS_S32. The default version
saves the exception reason to a temp. memory area.
}
procedure g_exception_reason_save_const(list: TAsmList; size: tdef; a: tcgint; const href: treference);virtual;
{#
This routine is used in exception management nodes. It should
load the exception reason to reg. The saved value
should either be in the temp. area (pointed to by href , href should
*NOT* be freed) or on the stack (the value should be popped).
The size of the value to save is OS_S32. The default version
saves the exception reason to a temp. memory area.
}
procedure g_exception_reason_load(list : TAsmList; fromsize, tosize: tdef; const href : treference; reg: tregister);virtual;
{#
This routine is called when the current exception reason can be
discarded. On platforms that use push/pop, it causes the current
value to be popped. On other platforms it doesn't do anything
}
procedure g_exception_reason_discard(list : TAsmList; size: tdef; href: treference); virtual;
procedure g_maybe_testself(list : TAsmList; selftype: tdef; reg:tregister);
// procedure g_maybe_testvmt(list : TAsmList;reg:tregister;objdef:tobjectdef);
{# This should emit the opcode to copy len bytes from the source
to destination.
It must be overridden for each new target processor.
@param(source Source reference of copy)
@param(dest Destination reference of copy)
}
procedure g_concatcopy(list : TAsmList;size: tdef; const source,dest : treference);virtual;
{# This should emit the opcode to copy len bytes from the an unaligned source
to destination.
It must be overridden for each new target processor.
@param(source Source reference of copy)
@param(dest Destination reference of copy)
}
procedure g_concatcopy_unaligned(list : TAsmList;size: tdef; const source,dest : treference);virtual;
{# This should emit the opcode to a shortrstring from the source
to destination.
@param(source Source reference of copy)
@param(dest Destination reference of copy)
}
procedure g_copyshortstring(list : TAsmList;const source,dest : treference;strdef:tstringdef);virtual;
procedure g_copyvariant(list : TAsmList;const source,dest : treference;vardef:tvariantdef);virtual;
procedure g_incrrefcount(list : TAsmList;t: tdef; const ref: treference);virtual;
procedure g_initialize(list : TAsmList;t : tdef;const ref : treference);virtual;
procedure g_finalize(list : TAsmList;t : tdef;const ref : treference);virtual;
procedure g_array_rtti_helper(list: TAsmList; t: tdef; const ref: treference; const highloc: tlocation;
const name: string);virtual;
protected
{ helper called by g_incrrefcount, g_initialize, g_finalize and
g_array_rtti_helper to determine whether the RTTI symbol representing
t needs to be loaded using the indirect symbol }
function def_needs_indirect(t:tdef):boolean;
public
{# Generates range checking code. It is to note
that this routine does not need to be overridden,
as it takes care of everything.
@param(p Node which contains the value to check)
@param(todef Type definition of node to range check)
}
procedure g_rangecheck(list: TAsmList; const l:tlocation; fromdef,todef: tdef); virtual;
{# Generates overflow checking code for a node }
procedure g_overflowcheck(list: TAsmList; const Loc:tlocation; def:tdef); virtual; abstract;
procedure g_overflowCheck_loc(List:TAsmList;const Loc:TLocation;def:TDef;var ovloc : tlocation);virtual; abstract;
procedure g_copyvaluepara_openarray(list : TAsmList;const ref:treference;const lenloc:tlocation;arrdef: tarraydef;destreg:tregister);virtual;
procedure g_releasevaluepara_openarray(list : TAsmList;arrdef: tarraydef;const l:tlocation);virtual;
{# Emits instructions when compilation is done in profile
mode (this is set as a command line option). The default
behavior does nothing, should be overridden as required.
}
procedure g_profilecode(list : TAsmList);virtual;
{# Emits instruction for allocating @var(size) bytes at the stackpointer
@param(size Number of bytes to allocate)
}
procedure g_stackpointer_alloc(list : TAsmList;size : longint);virtual; abstract;
{# Emits instruction for allocating the locals in entry
code of a routine. This is one of the first
routine called in @var(genentrycode).
@param(localsize Number of bytes to allocate as locals)
}
procedure g_proc_entry(list : TAsmList;localsize : longint;nostackframe:boolean);virtual; abstract;
{# Emits instructions for returning from a subroutine.
Should also restore the framepointer and stack.
@param(parasize Number of bytes of parameters to deallocate from stack)
}
procedure g_proc_exit(list : TAsmList;parasize:longint;nostackframe:boolean);virtual; abstract;
procedure g_intf_wrapper(list: TAsmList; procdef: tprocdef; const labelname: string; ioffset: longint);virtual; abstract;
procedure g_adjust_self_value(list:TAsmList;procdef: tprocdef;ioffset: aint);virtual; abstract;
protected
procedure a_jmp_external_name(list: TAsmList; const externalname: TSymStr); virtual;
public
{ generate a stub which only purpose is to pass control the given external method,
setting up any additional environment before doing so (if required).
The default implementation issues a jump instruction to the external name. }
procedure g_external_wrapper(list : TAsmList; procdef: tprocdef; const wrappername, externalname: string; global: boolean); virtual;
protected
procedure g_allocload_reg_reg(list: TAsmList; regsize: tdef; const fromreg: tregister; out toreg: tregister; regtyp: tregistertype);
public
{ create "safe copy" of a tlocation that can be used later: all
registers used in the tlocation are copied to new ones, so that
even if the original ones change, things stay the same (except if
the original location was already a register, then the register is
kept). Must only be used on lvalue locations.
It's intended as some kind of replacement for a_loadaddr_ref_reg()
for targets without pointers. }
procedure g_reference_loc(list: TAsmList; def: tdef; const fromloc: tlocation; out toloc: tlocation); virtual;
{ typecasts the pointer in reg to a new pointer. By default it does
nothing, only required for type-aware platforms like LLVM.
fromdef/todef are not typed as pointerdef, because they may also be
a procvardef or classrefdef. Replaces reg with a new register if
necessary }
procedure g_ptrtypecast_reg(list: TAsmList; fromdef, todef: tdef; var reg: tregister); virtual;
{ same but for a treference (considers the reference itself, not the
value stored at that place in memory). Replaces ref with a new
reference if necessary. fromdef needs to be a pointerdef because
it may have to be passed as fromdef to a_loadaddr_ref_reg, which
needs the "pointeddef" of fromdef }
procedure g_ptrtypecast_ref(list: TAsmList; fromdef, todef: tdef; var ref: treference); virtual;
{ update a reference pointing to the start address of a record/object/
class (contents) so it refers to the indicated field }
procedure g_set_addr_nonbitpacked_field_ref(list: TAsmList; recdef: tabstractrecorddef; field: tfieldvarsym; var recref: treference); virtual;
{ load a register/constant into a record field by name }
protected
procedure g_setup_load_field_by_name(list: TAsmList; recdef: trecorddef; const name: TIDString; const recref: treference; out fref: treference; out fielddef: tdef);
public
procedure g_load_reg_field_by_name(list: TAsmList; regsize: tdef; recdef: trecorddef; reg: tregister; const name: TIDString; const recref: treference);
procedure g_load_const_field_by_name(list: TAsmList; recdef: trecorddef; a: tcgint; const name: TIDString; const recref: treference);
{ laod a named field into a register }
procedure g_load_field_reg_by_name(list: TAsmList; recdef: trecorddef; regsize: tdef; const name: TIDString; const recref: treference; reg: tregister);
{ same as above, but allocates the register and determines the def
based on the type of the field }
procedure g_force_field_reg_by_name(list: TAsmList; recdef: trecorddef; const name: TIDString; const recref: treference; out regdef: tdef; out reg: tregister);
{ routines migrated from ncgutil }
procedure location_force_reg(list:TAsmList;var l:tlocation;src_size,dst_size:tdef;maybeconst:boolean);virtual;
procedure location_force_fpureg(list:TAsmList;var l: tlocation;size: tdef;maybeconst:boolean);virtual;
procedure location_force_mem(list:TAsmList;var l:tlocation;size:tdef);virtual;
procedure location_force_mmregscalar(list:TAsmList;var l: tlocation;size:tdef;maybeconst:boolean);virtual;
// procedure location_force_mmreg(list:TAsmList;var l: tlocation;size:tdef;maybeconst:boolean);virtual;abstract;
{ Retrieve the location of the data pointed to in location l, when the location is
a register it is expected to contain the address of the data }
procedure location_get_data_ref(list:TAsmList;def: tdef; const l:tlocation;var ref:treference;loadref:boolean; alignment: longint);virtual;
{ if p is a boolean expression, turns p.location into a LOC_JUMP with
jumps to generated true and false labels; otherwise internalerrors }
procedure maketojumpbool(list: TAsmList; p: tnode);
{ same as above, but using predefined true/false labels instead of
by generating new ones }
procedure maketojumpboollabels(list: TAsmList; p: tnode; truelabel, falselabel: tasmlabel);virtual;
{ if the result of n is a LOC_C(..)REGISTER, try to find the corresponding
loadn and change its location to a new register (= SSA). In case reload
is true, transfer the old to the new register }
procedure maybe_change_load_node_reg(list: TAsmList; var n: tnode; reload: boolean); virtual;
private
function do_replace_node_regs(var n: tnode; para: pointer): foreachnoderesult; virtual;
public
procedure gen_proc_symbol(list:TAsmList);virtual;
procedure gen_proc_symbol_end(list:TAsmList);virtual;
procedure handle_external_proc(list: TAsmList; pd: tprocdef; const importname: TSymStr); virtual;
procedure gen_initialize_code(list:TAsmList);virtual;
procedure gen_finalize_code(list:TAsmList);virtual;
procedure gen_entry_code(list:TAsmList);virtual;
procedure gen_exit_code(list:TAsmList);virtual;
protected
{ helpers called by gen_initialize_code/gen_finalize_code }
procedure inittempvariables(list:TAsmList);virtual;
procedure finalizetempvariables(list:TAsmList);virtual;
procedure initialize_regvars(p:TObject;arg:pointer);virtual;
{ generates the code for decrementing the reference count of parameters }
procedure final_paras(p:TObject;arg:pointer);
public
{ helper called by gen_alloc_symtable }
procedure varsym_set_localloc(list: TAsmList; vs:tabstractnormalvarsym); virtual;
{ helper called by gen_alloc_symtable }
procedure paravarsym_set_initialloc_to_paraloc(vs: tparavarsym); virtual;
procedure gen_load_para_value(list:TAsmList);virtual;
{ helpers called by gen_load_para_value }
procedure g_copyvalueparas(p:TObject;arg:pointer);virtual;
protected
procedure gen_loadfpu_loc_cgpara(list: TAsmList; size: tdef; const l: tlocation;const cgpara: tcgpara;locintsize: longint);virtual;
procedure init_paras(p:TObject;arg:pointer);
protected
{ Some targets have to put "something" in the function result
location if it's not initialised by the Pascal code, e.g.
stack-based architectures. By default it does nothing }
procedure gen_load_uninitialized_function_result(list: TAsmList; pd: tprocdef; resdef: tdef; const resloc: tcgpara);virtual;
procedure gen_load_loc_function_result(list: TAsmList; vardef: tdef; const l: tlocation);virtual;
public
{ load a tlocation into a cgpara }
procedure gen_load_loc_cgpara(list: TAsmList; vardef: tdef; const l: tlocation; const cgpara: tcgpara);virtual;
{ load a cgpara into a tlocation }
procedure gen_load_cgpara_loc(list: TAsmList; vardef: tdef; const para: TCGPara; var destloc: tlocation; reusepara: boolean);virtual;
{ load the function return value into the ABI-defined function return location }
procedure gen_load_return_value(list:TAsmList);virtual;
{ extras refactored from other units }
procedure gen_stack_check_size_para(list:TAsmList); virtual;
procedure gen_stack_check_call(list:TAsmList); virtual;
{ queue the code/data generated for a procedure for writing out to
the assembler/object file }
procedure record_generated_code_for_procdef(pd: tprocdef; code, data: TAsmList); virtual;
{ generate a call to a routine in the system unit }
function g_call_system_proc(list: TAsmList; const procname: string; const paras: array of pcgpara; forceresdef: tdef): tcgpara;
function g_call_system_proc(list: TAsmList; pd: tprocdef; const paras: array of pcgpara; forceresdef: tdef): tcgpara;
protected
function g_call_system_proc_intern(list: TAsmList; pd: tprocdef; const paras: array of pcgpara; forceresdef: tdef): tcgpara; virtual;
public
{ Generate code to exit an unwind-protected region. The default implementation
produces a simple jump to destination label. }
procedure g_local_unwind(list: TAsmList; l: TAsmLabel);virtual;abstract;
end;
thlcgobjclass = class of thlcgobj;
var
{# Main high level code generator class }
hlcg : thlcgobj;
{ class type of high level code generator class (also valid when hlcg is
nil, in order to be able to call its virtual class methods) }
chlcgobj: thlcgobjclass;
procedure destroy_hlcodegen;
implementation
uses
globals,systems,
fmodule,
verbose,defutil,paramgr,
symtable,
nbas,ncon,nld,ncgrtti,pass_2,
cgobj,cutils,procinfo,
{$ifdef x86}
cgx86,
{$endif x86}
ncgutil;
procedure destroy_hlcodegen;
begin
hlcg.free;
hlcg:=nil;
destroy_codegen;
end;
{ thlcgobj }
constructor thlcgobj.create;
begin
end;
procedure thlcgobj.init_register_allocators;
begin
cg.init_register_allocators;
end;
procedure thlcgobj.done_register_allocators;
begin
cg.done_register_allocators;
end;
procedure thlcgobj.set_regalloc_live_range_direction(dir: TRADirection);
begin
cg.set_regalloc_live_range_direction(dir);
end;
function thlcgobj.getintregister(list: TAsmList; size: tdef): Tregister;
begin
result:=cg.getintregister(list,def_cgsize(size));
end;
function thlcgobj.getaddressregister(list: TAsmList; size: tdef): Tregister;
begin
result:=cg.getaddressregister(list);
end;
function thlcgobj.getfpuregister(list: TAsmList; size: tdef): Tregister;
begin
result:=cg.getfpuregister(list,def_cgsize(size));
end;
function thlcgobj.getmmregister(list: TAsmList; size: tdef): Tregister;
begin
result:=cg.getmmregister(list,def_cgsize(size));
end;
function thlcgobj.getflagregister(list: TAsmList; size: tdef): Tregister;
begin
result:=cg.getflagregister(list,def_cgsize(size));
end;
function thlcgobj.gettempregister(list: TAsmList; size: tdef): Tregister;
begin
{ doesn't make sense to try to translate this size to tcgsize, temps
can have any size }
result:=cg.gettempregister(list);
end;
function thlcgobj.getregisterfordef(list: TAsmList; size: tdef): Tregister;
begin
case def2regtyp(size) of
R_INTREGISTER:
result:=getintregister(list,size);
R_ADDRESSREGISTER:
result:=getaddressregister(list,size);
R_FPUREGISTER:
result:=getfpuregister(list,size);
R_MMREGISTER:
result:=getmmregister(list,size);
else
internalerror(2010122901);
end;
end;
function thlcgobj.uses_registers(rt: Tregistertype): boolean;
begin
result:=cg.uses_registers(rt);
end;
procedure thlcgobj.getcpuregister(list: TAsmList; r: Tregister);
begin
cg.getcpuregister(list,r);
end;
procedure thlcgobj.ungetcpuregister(list: TAsmList; r: Tregister);
begin
cg.ungetcpuregister(list,r);
end;
procedure thlcgobj.alloccpuregisters(list: TAsmList; rt: Tregistertype; const r: Tcpuregisterset);
begin
cg.alloccpuregisters(list,rt,r);
end;
procedure thlcgobj.dealloccpuregisters(list: TAsmList; rt: Tregistertype; const r: Tcpuregisterset);
begin
cg.dealloccpuregisters(list,rt,r);
end;
procedure thlcgobj.allocallcpuregisters(list: TAsmList);
begin
cg.allocallcpuregisters(list);
end;
procedure thlcgobj.deallocallcpuregisters(list: TAsmList);
begin
cg.deallocallcpuregisters(list);
end;
procedure thlcgobj.do_register_allocation(list: TAsmList; headertai: tai);
begin
cg.do_register_allocation(list,headertai);
end;
procedure thlcgobj.translate_register(var reg: tregister);
begin
cg.translate_register(reg);
end;
class function thlcgobj.def2regtyp(def: tdef): tregistertype;
begin
case def.typ of
enumdef,
orddef,
recorddef,
setdef:
result:=R_INTREGISTER;
stringdef,
pointerdef,
classrefdef,
objectdef,
procvardef,
procdef,
arraydef,
formaldef:
result:=R_ADDRESSREGISTER;
floatdef:
if use_vectorfpu(def) then
result:=R_MMREGISTER
else if cs_fp_emulation in current_settings.moduleswitches then
result:=R_INTREGISTER
else
result:=R_FPUREGISTER;
filedef,
variantdef,
forwarddef,
undefineddef:
result:=R_INVALIDREGISTER;
else
internalerror(2010120506);
end;
end;
procedure thlcgobj.reference_reset_base(var ref: treference; regsize: tdef;
reg: tregister; offset: longint; temppos: treftemppos; alignment: longint; volatility: tvolatilityset);
begin
reference_reset(ref,alignment,volatility);
ref.base:=reg;
ref.offset:=offset;
ref.temppos:=temppos;
end;
procedure thlcgobj.a_label(list: TAsmList; l: tasmlabel); inline;
begin
cg.a_label(list,l);
end;
procedure thlcgobj.a_reg_alloc(list: TAsmList; r: tregister);
begin
cg.a_reg_alloc(list,r);
end;
procedure thlcgobj.a_reg_dealloc(list: TAsmList; r: tregister);
begin
cg.a_reg_dealloc(list,r);
end;
procedure thlcgobj.a_reg_sync(list: TAsmList; r: tregister);
begin
cg.a_reg_sync(list,r);
end;
procedure thlcgobj.a_load_reg_cgpara(list: TAsmList; size: tdef; r: tregister; const cgpara: TCGPara);
var
ref: treference;
tmpreg : tregister;
begin
cgpara.check_simple_location;
paramanager.alloccgpara(list,cgpara);
if cgpara.location^.shiftval<0 then
begin
tmpreg:=getintregister(list,cgpara.location^.def);
a_op_const_reg_reg(list,OP_SHL,cgpara.location^.def,-cgpara.location^.shiftval,r,tmpreg);
r:=tmpreg;
end;
case cgpara.location^.loc of
LOC_REGISTER,LOC_CREGISTER:
a_load_reg_reg(list,size,cgpara.location^.def,r,cgpara.location^.register);
LOC_REFERENCE,LOC_CREFERENCE:
begin
reference_reset_base(ref,voidstackpointertype,cgpara.location^.reference.index,cgpara.location^.reference.offset,ctempposinvalid,cgpara.alignment,[]);
a_load_reg_ref(list,size,cgpara.location^.def,r,ref);
end;
LOC_MMREGISTER,LOC_CMMREGISTER:
a_loadmm_intreg_reg(list,size,cgpara.location^.def,r,cgpara.location^.register,mms_movescalar);
LOC_FPUREGISTER,LOC_CFPUREGISTER:
begin
tg.gethltemp(list,size,size.size,tt_normal,ref);
a_load_reg_ref(list,size,cgpara.location^.def,r,ref);
a_loadfpu_ref_cgpara(list,cgpara.location^.def,ref,cgpara);
tg.ungettemp(list,ref);
end
else
internalerror(2010120415);
end;
end;
procedure thlcgobj.a_load_const_cgpara(list: TAsmList; tosize: tdef; a: tcgint; const cgpara: TCGPara);
var
ref : treference;
begin
cgpara.check_simple_location;
paramanager.alloccgpara(list,cgpara);
if cgpara.location^.shiftval<0 then
a:=a shl -cgpara.location^.shiftval;
case cgpara.location^.loc of
LOC_REGISTER,LOC_CREGISTER:
a_load_const_reg(list,cgpara.location^.def,a,cgpara.location^.register);
LOC_REFERENCE,LOC_CREFERENCE:
begin
reference_reset_base(ref,voidstackpointertype,cgpara.location^.reference.index,cgpara.location^.reference.offset,ctempposinvalid,cgpara.alignment,[]);
a_load_const_ref(list,cgpara.location^.def,a,ref);
end
else
internalerror(2010120416);
end;
end;
procedure thlcgobj.a_load_ref_cgpara(list: TAsmList; size: tdef; const r: treference; const cgpara: TCGPara);
var
tmpref, ref: treference;
tmpreg: tregister;
location: pcgparalocation;
orgsizeleft,
sizeleft: tcgint;
reghasvalue: boolean;
begin
location:=cgpara.location;
tmpref:=r;
sizeleft:=cgpara.intsize;
while assigned(location) do
begin
paramanager.allocparaloc(list,location);
case location^.loc of
LOC_REGISTER,LOC_CREGISTER:
begin
{ Parameter locations are often allocated in multiples of
entire registers. If a parameter only occupies a part of
such a register (e.g. a 16 bit int on a 32 bit
architecture), the size of this parameter can only be
determined by looking at the "size" parameter of this
method -> if the size parameter is <= sizeof(aint), then
we check that there is only one parameter location and
then use this "size" to load the value into the parameter
location }
if (def_cgsize(size)<>OS_NO) and
(size.size<=sizeof(aint)) then
begin
cgpara.check_simple_location;
a_load_ref_reg(list,size,location^.def,tmpref,location^.register);
if location^.shiftval<0 then
a_op_const_reg(list,OP_SHL,location^.def,-location^.shiftval,location^.register);
end
{ there's a lot more data left, and the current paraloc's
register is entirely filled with part of that data }
else if (sizeleft>sizeof(aint)) then
begin
a_load_ref_reg(list,location^.def,location^.def,tmpref,location^.register);
end
{ we're at the end of the data, and it can be loaded into
the current location's register with a single regular
load }
else if sizeleft in [1,2,4,8] then
begin
{ don't use cgsize_orddef(int_cgsize(sizeleft)) as fromdef,
because that may be larger than location^.register in
case of padding at the end of a record }
a_load_ref_reg(list,location^.def,location^.def,tmpref,location^.register);
if location^.shiftval<0 then
a_op_const_reg(list,OP_SHL,location^.def,-location^.shiftval,location^.register);
end
{ we're at the end of the data, and we need multiple loads
to get it in the register because it's an irregular size }
else
begin
{ should be the last part }
if assigned(location^.next) then
internalerror(2010052907);
{ load the value piecewise to get it into the register }
orgsizeleft:=sizeleft;
reghasvalue:=false;
{$ifdef cpu64bitalu}
if sizeleft>=4 then
begin
a_load_ref_reg(list,u32inttype,location^.def,tmpref,location^.register);
dec(sizeleft,4);
if target_info.endian=endian_big then
a_op_const_reg(list,OP_SHL,location^.def,sizeleft*8,location^.register);
inc(tmpref.offset,4);
reghasvalue:=true;
end;
{$endif cpu64bitalu}
if sizeleft>=2 then
begin
tmpreg:=getintregister(list,location^.def);
a_load_ref_reg(list,u16inttype,location^.def,tmpref,tmpreg);
dec(sizeleft,2);
if reghasvalue then
begin
if target_info.endian=endian_big then
a_op_const_reg(list,OP_SHL,location^.def,sizeleft*8,tmpreg)
else
a_op_const_reg(list,OP_SHL,location^.def,(orgsizeleft-(sizeleft+2))*8,tmpreg);
a_op_reg_reg(list,OP_OR,location^.def,tmpreg,location^.register);
end
else
begin
if target_info.endian=endian_big then
a_op_const_reg_reg(list,OP_SHL,location^.def,sizeleft*8,tmpreg,location^.register)
else
a_load_reg_reg(list,location^.def,location^.def,tmpreg,location^.register);
end;
inc(tmpref.offset,2);
reghasvalue:=true;
end;
if sizeleft=1 then
begin
tmpreg:=getintregister(list,location^.def);
a_load_ref_reg(list,u8inttype,location^.def,tmpref,tmpreg);
dec(sizeleft,1);
if reghasvalue then
begin
if target_info.endian=endian_little then
a_op_const_reg(list,OP_SHL,location^.def,(orgsizeleft-(sizeleft+1))*8,tmpreg);
a_op_reg_reg(list,OP_OR,location^.def,tmpreg,location^.register)
end
else
a_load_reg_reg(list,location^.def,location^.def,tmpreg,location^.register);
inc(tmpref.offset);
end;
if location^.shiftval<0 then
a_op_const_reg(list,OP_SHL,location^.def,-location^.shiftval,location^.register);
{ the loop will already adjust the offset and sizeleft }
dec(tmpref.offset,orgsizeleft);
sizeleft:=orgsizeleft;
end;
end;
LOC_REFERENCE,LOC_CREFERENCE:
begin
if assigned(location^.next) then
internalerror(2017073001);
reference_reset_base(ref,voidstackpointertype,location^.reference.index,location^.reference.offset,ctempposinvalid,newalignment(cgpara.alignment,cgpara.intsize-sizeleft),[]);
if (def_cgsize(size)<>OS_NO) and
(size.size=sizeleft) and
(sizeleft<=sizeof(aint)) then
a_load_ref_ref(list,size,location^.def,tmpref,ref)
else
{ use concatcopy, because the parameter can be larger than }
{ what the OS_* constants can handle }
g_concatcopy(list,location^.def,tmpref,ref);
end;
LOC_MMREGISTER,LOC_CMMREGISTER:
begin
case location^.size of
OS_F32,
OS_F64,
OS_F128:
a_loadmm_ref_reg(list,location^.def,location^.def,tmpref,location^.register,mms_movescalar);
OS_M8..OS_M128,
OS_MS8..OS_MS128:
a_loadmm_ref_reg(list,location^.def,location^.def,tmpref,location^.register,nil);
else
internalerror(2010053101);
end;
end
else
internalerror(2014032101);
end;
inc(tmpref.offset,tcgsize2size[location^.size]);
dec(sizeleft,tcgsize2size[location^.size]);
location:=location^.next;
end;
end;
procedure thlcgobj.a_load_loc_cgpara(list: TAsmList; size: tdef; const l: tlocation; const cgpara: TCGPara);
begin
case l.loc of
LOC_REGISTER,
LOC_CREGISTER :
a_load_reg_cgpara(list,size,l.register,cgpara);
LOC_CONSTANT :
a_load_const_cgpara(list,size,l.value,cgpara);
LOC_CREFERENCE,
LOC_REFERENCE :
a_load_ref_cgpara(list,size,l.reference,cgpara);
else
internalerror(2010120419);
end;
end;
procedure thlcgobj.a_loadaddr_ref_cgpara(list: TAsmList; fromsize: tdef; const r: treference; const cgpara: TCGPara);
var
hr : tregister;
begin
cgpara.check_simple_location;
if cgpara.location^.loc in [LOC_CREGISTER,LOC_REGISTER] then
begin
paramanager.allocparaloc(list,cgpara.location);
a_loadaddr_ref_reg(list,fromsize,cgpara.location^.def,r,cgpara.location^.register)
end
else
begin
hr:=getaddressregister(list,cgpara.def);
a_loadaddr_ref_reg(list,fromsize,cgpara.location^.def,r,hr);
a_load_reg_cgpara(list,cgpara.def,hr,cgpara);
end;
end;
function thlcgobj.a_call_name_static(list: TAsmList; pd: tprocdef; const s: TSymStr; const paras: array of pcgpara; forceresdef: tdef): tcgpara;
begin
result:=a_call_name(list,pd,s,paras,forceresdef,false);
end;
function thlcgobj.a_call_name_inherited(list: TAsmList; pd: tprocdef; const s: TSymStr; const paras: array of pcgpara): tcgpara;
begin
result:=a_call_name(list,pd,s,paras,nil,false);
end;
procedure thlcgobj.a_load_const_ref(list: TAsmList; tosize: tdef; a: tcgint; const ref: treference);
var
tmpreg: tregister;
begin
tmpreg:=getintregister(list,tosize);
a_load_const_reg(list,tosize,a,tmpreg);
a_load_reg_ref(list,tosize,tosize,tmpreg,ref);
end;
procedure thlcgobj.a_load_const_loc(list: TAsmList; tosize: tdef; a: tcgint; const loc: tlocation);
begin
case loc.loc of
LOC_REFERENCE,LOC_CREFERENCE:
a_load_const_ref(list,tosize,a,loc.reference);
LOC_REGISTER,LOC_CREGISTER:
a_load_const_reg(list,tosize,a,loc.register);
LOC_SUBSETREG,LOC_CSUBSETREG:
a_load_const_subsetreg(list,tosize,a,loc.sreg);
LOC_SUBSETREF,LOC_CSUBSETREF:
a_load_const_subsetref(list,tosize,a,loc.sref);
else
internalerror(2010120401);
end;
end;
procedure thlcgobj.a_load_reg_ref_unaligned(list: TAsmList; fromsize, tosize: tdef; register: tregister; const ref: treference);
begin
a_load_reg_ref(list,fromsize,tosize,register,ref);
end;
procedure thlcgobj.a_load_reg_loc(list: TAsmList; fromsize, tosize: tdef; reg: tregister; const loc: tlocation);
begin
case loc.loc of
LOC_REFERENCE,LOC_CREFERENCE:
a_load_reg_ref(list,fromsize,tosize,reg,loc.reference);
LOC_REGISTER,LOC_CREGISTER:
a_load_reg_reg(list,fromsize,tosize,reg,loc.register);
LOC_SUBSETREG,LOC_CSUBSETREG:
a_load_reg_subsetreg(list,fromsize,tosize,reg,loc.sreg);
LOC_SUBSETREF,LOC_CSUBSETREF:
a_load_reg_subsetref(list,fromsize,tosize,reg,loc.sref);
LOC_MMREGISTER,LOC_CMMREGISTER:
a_loadmm_intreg_reg(list,fromsize,tosize,reg,loc.register,mms_movescalar);
else
internalerror(2010120402);
end;
end;
procedure thlcgobj.a_load_ref_reg_unaligned(list: TAsmList; fromsize, tosize: tdef; const ref: treference; register: tregister);
begin
a_load_ref_reg(list,fromsize,tosize,ref,register);
end;
procedure thlcgobj.a_load_ref_ref(list: TAsmList; fromsize, tosize: tdef; const sref: treference; const dref: treference);
var
tmpreg: tregister;
begin
{ verify if we have the same reference }
if references_equal(sref,dref) then
exit;
tmpreg:=getintregister(list,tosize);
a_load_ref_reg(list,fromsize,tosize,sref,tmpreg);
a_load_reg_ref(list,tosize,tosize,tmpreg,dref);
end;
procedure thlcgobj.a_load_loc_reg(list: TAsmList; fromsize, tosize: tdef; const loc: tlocation; reg: tregister);
begin
case loc.loc of
LOC_REFERENCE,LOC_CREFERENCE:
a_load_ref_reg(list,fromsize,tosize,loc.reference,reg);
LOC_REGISTER,LOC_CREGISTER:
a_load_reg_reg(list,fromsize,tosize,loc.register,reg);
LOC_CONSTANT:
a_load_const_reg(list,tosize,loc.value,reg);
LOC_SUBSETREG,LOC_CSUBSETREG:
a_load_subsetreg_reg(list,fromsize,tosize,loc.sreg,reg);
LOC_SUBSETREF,LOC_CSUBSETREF:
a_load_subsetref_reg(list,fromsize,tosize,loc.sref,reg);
else
internalerror(2010120201);
end;
end;
procedure thlcgobj.a_load_loc_ref(list: TAsmList; fromsize, tosize: tdef; const loc: tlocation; const ref: treference);
begin
case loc.loc of
LOC_REFERENCE,LOC_CREFERENCE:
a_load_ref_ref(list,fromsize,tosize,loc.reference,ref);
LOC_REGISTER,LOC_CREGISTER:
a_load_reg_ref(list,fromsize,tosize,loc.register,ref);
LOC_CONSTANT:
a_load_const_ref(list,tosize,loc.value,ref);
LOC_SUBSETREG,LOC_CSUBSETREG:
a_load_subsetreg_ref(list,fromsize,tosize,loc.sreg,ref);
LOC_SUBSETREF,LOC_CSUBSETREF:
a_load_subsetref_ref(list,fromsize,tosize,loc.sref,ref);
else
internalerror(2010120403);
end;
end;
procedure thlcgobj.a_load_loc_subsetreg(list: TAsmList; fromsize, tosubsetsize: tdef; const loc: tlocation; const sreg: tsubsetregister);
begin
case loc.loc of
LOC_REFERENCE,LOC_CREFERENCE:
a_load_ref_subsetreg(list,fromsize,tosubsetsize,loc.reference,sreg);
LOC_REGISTER,LOC_CREGISTER:
a_load_reg_subsetreg(list,fromsize,tosubsetsize,loc.register,sreg);
LOC_CONSTANT:
a_load_const_subsetreg(list,tosubsetsize,loc.value,sreg);
LOC_SUBSETREG,LOC_CSUBSETREG:
a_load_subsetreg_subsetreg(list,fromsize,tosubsetsize,loc.sreg,sreg);
LOC_SUBSETREF,LOC_CSUBSETREF:
a_load_subsetref_subsetreg(list,fromsize,tosubsetsize,loc.sref,sreg);
else
internalerror(2010120404);
end;
end;
procedure thlcgobj.a_load_loc_subsetref(list: TAsmList; fromsize, tosubsetsize: tdef; const loc: tlocation; const sref: tsubsetreference);
begin
case loc.loc of
LOC_REFERENCE,LOC_CREFERENCE:
a_load_ref_subsetref(list,fromsize,tosubsetsize,loc.reference,sref);
LOC_REGISTER,LOC_CREGISTER:
a_load_reg_subsetref(list,fromsize,tosubsetsize,loc.register,sref);
LOC_CONSTANT:
a_load_const_subsetref(list,tosubsetsize,loc.value,sref);
LOC_SUBSETREG,LOC_CSUBSETREG:
a_load_subsetreg_subsetref(list,fromsize,tosubsetsize,loc.sreg,sref);
LOC_SUBSETREF,LOC_CSUBSETREF:
a_load_subsetref_subsetref(list,fromsize,tosubsetsize,loc.sref,sref);
else
internalerror(2010120405);
end;
end;
{$push}
{$r-,q-}
procedure thlcgobj.a_load_subsetreg_reg(list: TAsmList; subsetsize, tosize: tdef; const sreg: tsubsetregister; destreg: tregister);
var
subsetregdef: torddef;
bitmask: aword;
tmpreg,
subsetsizereg: tregister;
stopbit: byte;
begin
subsetregdef:=cgsize_orddef(sreg.subsetregsize);
tmpreg:=getintregister(list,subsetregdef);
{ insert shifts only if it changes bits being accessed later on }
if (sreg.startbit<>0) or
(tosize.size*8>sreg.bitlen) then
begin
if is_signed(subsetsize) then
begin
{ sign extend in case the value has a bitsize mod 8 <> 0 }
{ both instructions will be optimized away if not }
a_op_const_reg_reg(list,OP_SHL,subsetregdef,(tcgsize2size[sreg.subsetregsize]*8)-sreg.startbit-sreg.bitlen,sreg.subsetreg,tmpreg);
a_op_const_reg(list,OP_SAR,subsetregdef,(tcgsize2size[sreg.subsetregsize]*8)-sreg.bitlen,tmpreg);
end
else
begin
a_op_const_reg_reg(list,OP_SHR,subsetregdef,sreg.startbit,sreg.subsetreg,tmpreg);
stopbit:=sreg.startbit+sreg.bitlen;
// on x86(64), 1 shl 32(64) = 1 instead of 0
// use aword to prevent overflow with 1 shl 31
if (stopbit-sreg.startbit<>AIntBits) then
bitmask:=(aword(1) shl (stopbit-sreg.startbit))-1
else
bitmask:=high(aword);
a_op_const_reg(list,OP_AND,subsetregdef,tcgint(bitmask),tmpreg);
end;
end
else
a_load_reg_reg(list,subsetregdef,subsetregdef,sreg.subsetreg,tmpreg);
subsetsizereg:=getintregister(list,subsetsize);
a_load_reg_reg(list,subsetregdef,subsetsize,tmpreg,subsetsizereg);
a_load_reg_reg(list,subsetsize,tosize,subsetsizereg,destreg);
end;
procedure thlcgobj.a_load_reg_subsetreg(list: TAsmList; fromsize, tosubsetsize: tdef; fromreg: tregister; const sreg: tsubsetregister);
begin
a_load_regconst_subsetreg_intern(list,fromsize,tosubsetsize,fromreg,sreg,SL_REG);
end;
procedure thlcgobj.a_load_subsetreg_subsetreg(list: TAsmlist; fromsubsetsize, tosubsetsize: tdef; const fromsreg, tosreg: tsubsetregister);
var
fromsubsetregdef,
tosubsetregdef: torddef;
tmpreg, tmpreg2: tregister;
bitmask: aword;
stopbit: byte;
begin
if (fromsreg.bitlen>=tosreg.bitlen) then
begin
fromsubsetregdef:=cgsize_orddef(fromsreg.subsetregsize);
tosubsetregdef:=cgsize_orddef(tosreg.subsetregsize);
if (fromsreg.startbit<=tosreg.startbit) then
begin
{ tosreg may be larger -> use its size to perform the shift }
tmpreg:=getintregister(list,tosubsetregdef);
a_load_reg_reg(list,fromsubsetregdef,tosubsetregdef,fromsreg.subsetreg,tmpreg);
a_op_const_reg(list,OP_SHL,tosubsetregdef,tosreg.startbit-fromsreg.startbit,tmpreg)
end
else
begin
{ fromsreg may be larger -> use its size to perform the shift }
tmpreg:=getintregister(list,fromsubsetregdef);
a_op_const_reg_reg(list,OP_SHR,fromsubsetregdef,fromsreg.startbit-tosreg.startbit,fromsreg.subsetreg,tmpreg);
tmpreg2:=getintregister(list,tosubsetregdef);
a_load_reg_reg(list,fromsubsetregdef,tosubsetregdef,tmpreg,tmpreg2);
tmpreg:=tmpreg2;
end;
stopbit:=tosreg.startbit + tosreg.bitlen;
// on x86(64), 1 shl 32(64) = 1 instead of 0
if (stopbit<>AIntBits) then
bitmask:=not(((aword(1) shl stopbit)-1) xor ((aword(1) shl tosreg.startbit)-1))
else
bitmask:=(aword(1) shl tosreg.startbit) - 1;
a_op_const_reg(list,OP_AND,tosubsetregdef,tcgint(bitmask),tosreg.subsetreg);
a_op_const_reg(list,OP_AND,tosubsetregdef,tcgint(not(bitmask)),tmpreg);
a_op_reg_reg(list,OP_OR,tosubsetregdef,tmpreg,tosreg.subsetreg);
end
else
begin
tmpreg:=getintregister(list,tosubsetsize);
a_load_subsetreg_reg(list,fromsubsetsize,tosubsetsize,fromsreg,tmpreg);
a_load_reg_subsetreg(list,tosubsetsize,tosubsetsize,tmpreg,tosreg);
end;
end;
procedure thlcgobj.a_load_subsetreg_ref(list: TAsmList; fromsubsetsize, tosize: tdef; const sreg: tsubsetregister; const destref: treference);
var
tmpreg: tregister;
begin
tmpreg:=getintregister(list,tosize);
a_load_subsetreg_reg(list,fromsubsetsize,tosize,sreg,tmpreg);
a_load_reg_ref(list,tosize,tosize,tmpreg,destref);
end;
procedure thlcgobj.a_load_ref_subsetreg(list: TAsmList; fromsize, tosubsetsize: tdef; const fromref: treference; const sreg: tsubsetregister);
var
tmpreg: tregister;
begin
tmpreg := getintregister(list,tosubsetsize);
a_load_ref_reg(list,fromsize,tosubsetsize,fromref,tmpreg);
a_load_reg_subsetreg(list,tosubsetsize,tosubsetsize,tmpreg,sreg);
end;
procedure thlcgobj.a_load_const_subsetreg(list: TAsmlist; tosubsetsize: tdef; a: tcgint; const sreg: tsubsetregister);
var
subsetregdef: torddef;
bitmask: aword;
stopbit: byte;
begin
subsetregdef:=cgsize_orddef(sreg.subsetregsize);
stopbit:=sreg.startbit+sreg.bitlen;
// on x86(64), 1 shl 32(64) = 1 instead of 0
if (stopbit<>AIntBits) then
bitmask:=not(((aword(1) shl stopbit)-1) xor ((aword(1) shl sreg.startbit)-1))
else
bitmask:=(aword(1) shl sreg.startbit)-1;
if (((aword(a) shl sreg.startbit) and not bitmask)<>not bitmask) then
a_op_const_reg(list,OP_AND,subsetregdef,tcgint(bitmask),sreg.subsetreg);
a_op_const_reg(list,OP_OR,subsetregdef,tcgint((aword(a) shl sreg.startbit) and not(bitmask)),sreg.subsetreg);
end;
procedure thlcgobj.a_load_subsetreg_loc(list: TAsmlist; fromsubsetsize, tosize: tdef; const sreg: tsubsetregister; const loc: tlocation);
begin
case loc.loc of
LOC_REFERENCE,LOC_CREFERENCE:
a_load_subsetreg_ref(list,fromsubsetsize,tosize,sreg,loc.reference);
LOC_REGISTER,LOC_CREGISTER:
a_load_subsetreg_reg(list,fromsubsetsize,tosize,sreg,loc.register);
LOC_SUBSETREG,LOC_CSUBSETREG:
a_load_subsetreg_subsetreg(list,fromsubsetsize,tosize,sreg,loc.sreg);
LOC_SUBSETREF,LOC_CSUBSETREF:
a_load_subsetreg_subsetref(list,fromsubsetsize,tosize,sreg,loc.sref);
else
internalerror(2010120406);
end;
end;
procedure thlcgobj.a_load_subsetref_reg(list: TAsmList; fromsubsetsize, tosize: tdef; const sref: tsubsetreference; destreg: tregister);
var
tmpref: treference;
valuereg,extra_value_reg: tregister;
tosreg: tsubsetregister;
loadsize: torddef;
loadbitsize: byte;
extra_load: boolean;
begin
get_subsetref_load_info(sref,loadsize,extra_load);
loadbitsize:=loadsize.size*8;
{ load the (first part) of the bit sequence }
valuereg:=getintregister(list,osuinttype);
a_load_ref_reg(list,loadsize,osuinttype,sref.ref,valuereg);
if not extra_load then
begin
{ everything is guaranteed to be in a single register of loadsize }
if (sref.bitindexreg=NR_NO) then
begin
{ use subsetreg routine, it may have been overridden with an optimized version }
tosreg.subsetreg:=valuereg;
tosreg.subsetregsize:=def_cgsize(osuinttype);
{ subsetregs always count bits from right to left }
if (target_info.endian=endian_big) then
tosreg.startbit:=loadbitsize-(sref.startbit+sref.bitlen)
else
tosreg.startbit:=sref.startbit;
tosreg.bitlen:=sref.bitlen;
a_load_subsetreg_reg(list,fromsubsetsize,tosize,tosreg,destreg);
exit;
end
else
begin
if (sref.startbit<>0) then
internalerror(2006081510);
if (target_info.endian=endian_big) then
begin
a_op_reg_reg(list,OP_SHL,osuinttype,sref.bitindexreg,valuereg);
if is_signed(fromsubsetsize) then
begin
{ sign extend to entire register }
a_op_const_reg(list,OP_SHL,osuinttype,AIntBits-loadbitsize,valuereg);
a_op_const_reg(list,OP_SAR,osuinttype,AIntBits-sref.bitlen,valuereg);
end
else
a_op_const_reg(list,OP_SHR,osuinttype,loadbitsize-sref.bitlen,valuereg);
end
else
begin
a_op_reg_reg(list,OP_SHR,osuinttype,sref.bitindexreg,valuereg);
if is_signed(fromsubsetsize) then
begin
a_op_const_reg(list,OP_SHL,osuinttype,AIntBits-sref.bitlen,valuereg);
a_op_const_reg(list,OP_SAR,osuinttype,AIntBits-sref.bitlen,valuereg);
end
end;
{ mask other bits/sign extend }
if not is_signed(fromsubsetsize) then
a_op_const_reg(list,OP_AND,osuinttype,tcgint((aword(1) shl sref.bitlen)-1),valuereg);
end
end
else
begin
{ load next value as well }
extra_value_reg:=getintregister(list,osuinttype);
if (sref.bitindexreg=NR_NO) then
begin
tmpref:=sref.ref;
inc(tmpref.offset,loadbitsize div 8);
a_load_ref_reg(list,loadsize,osuinttype,tmpref,extra_value_reg);
{ can be overridden to optimize }
a_load_subsetref_regs_noindex(list,fromsubsetsize,loadbitsize,sref,valuereg,extra_value_reg)
end
else
begin
if (sref.startbit<>0) then
internalerror(2006080610);
a_load_subsetref_regs_index(list,fromsubsetsize,loadbitsize,sref,valuereg);
end;
end;
{ store in destination }
{$ifndef cpuhighleveltarget}
{ avoid unnecessary sign extension and zeroing }
valuereg:=cg.makeregsize(list,valuereg,OS_INT);
destreg:=cg.makeregsize(list,destreg,OS_INT);
cg.a_load_reg_reg(list,OS_INT,OS_INT,valuereg,destreg);
destreg:=cg.makeregsize(list,destreg,def_cgsize(tosize));
{$else}
{ can't juggle with register sizes, they are actually typed entities
here }
a_load_reg_reg(list,osuinttype,tosize,valuereg,destreg);
{$endif}
end;
procedure thlcgobj.a_load_reg_subsetref(list: TAsmList; fromsize, tosubsetsize: tdef; fromreg: tregister; const sref: tsubsetreference);
begin
a_load_regconst_subsetref_intern(list,fromsize,tosubsetsize,fromreg,sref,SL_REG);
end;
procedure thlcgobj.a_load_subsetref_subsetref(list: TAsmlist; fromsubsetsize, tosubsetsize: tdef; const fromsref, tosref: tsubsetreference);
var
tmpreg: tregister;
begin
tmpreg:=getintregister(list,tosubsetsize);
a_load_subsetref_reg(list,fromsubsetsize,tosubsetsize,fromsref,tmpreg);
a_load_reg_subsetref(list,tosubsetsize,tosubsetsize,tmpreg,tosref);
end;
procedure thlcgobj.a_load_subsetref_ref(list: TAsmList; fromsubsetsize, tosize: tdef; const sref: tsubsetreference; const destref: treference);
var
tmpreg: tregister;
begin
tmpreg:=getintregister(list,tosize);
a_load_subsetref_reg(list,fromsubsetsize,tosize,sref,tmpreg);
a_load_reg_ref(list,tosize,tosize,tmpreg,destref);
end;
procedure thlcgobj.a_load_ref_subsetref(list: TAsmList; fromsize, tosubsetsize: tdef; const fromref: treference; const sref: tsubsetreference);
var
tmpreg: tregister;
begin
tmpreg := getintregister(list,tosubsetsize);
a_load_ref_reg(list,fromsize,tosubsetsize,fromref,tmpreg);
a_load_reg_subsetref(list,tosubsetsize,tosubsetsize,tmpreg,sref);
end;
procedure thlcgobj.a_load_const_subsetref(list: TAsmlist; tosubsetsize: tdef; a: tcgint; const sref: tsubsetreference);
var
tmpreg: tregister;
slopt: tsubsetloadopt;
begin
{ perform masking of the source value in advance }
slopt:=SL_REGNOSRCMASK;
if (sref.bitlen<>AIntBits) then
a:=tcgint(aword(a) and ((aword(1) shl sref.bitlen) -1));
if (
{ broken x86 "x shl regbitsize = x" }
((sref.bitlen<>AIntBits) and
((aword(a) and ((aword(1) shl sref.bitlen)-1))=(aword(1) shl sref.bitlen)-1)) or
((sref.bitlen=AIntBits) and
(a=-1))
) then
slopt:=SL_SETMAX
else if (a=0) then
slopt:=SL_SETZERO;
if not(slopt in [SL_SETZERO,SL_SETMAX]) then
begin
tmpreg:=getintregister(list,tosubsetsize);
a_load_const_reg(list,tosubsetsize,a,tmpreg);
end
else
tmpreg:=NR_NO;
a_load_regconst_subsetref_intern(list,tosubsetsize,tosubsetsize,tmpreg,sref,slopt);
end;
procedure thlcgobj.a_load_subsetref_loc(list: TAsmlist; fromsubsetsize, tosize: tdef; const sref: tsubsetreference; const loc: tlocation);
begin
case loc.loc of
LOC_REFERENCE,LOC_CREFERENCE:
a_load_subsetref_ref(list,fromsubsetsize,tosize,sref,loc.reference);
LOC_REGISTER,LOC_CREGISTER:
a_load_subsetref_reg(list,fromsubsetsize,tosize,sref,loc.register);
LOC_SUBSETREG,LOC_CSUBSETREG:
a_load_subsetref_subsetreg(list,fromsubsetsize,tosize,sref,loc.sreg);
LOC_SUBSETREF,LOC_CSUBSETREF:
a_load_subsetref_subsetref(list,fromsubsetsize,tosize,sref,loc.sref);
else
internalerror(2010120407);
end;
end;
procedure thlcgobj.a_load_subsetref_subsetreg(list: TAsmlist; fromsubsetsize, tosubsetsize: tdef; const fromsref: tsubsetreference; const tosreg: tsubsetregister);
var
tmpreg: tregister;
begin
tmpreg:=getintregister(list,tosubsetsize);
a_load_subsetref_reg(list,fromsubsetsize,tosubsetsize,fromsref,tmpreg);
a_load_reg_subsetreg(list,tosubsetsize,tosubsetsize,tmpreg,tosreg);
end;
procedure thlcgobj.a_load_subsetreg_subsetref(list: TAsmlist; fromsubsetsize, tosubsetsize: tdef; const fromsreg: tsubsetregister; const tosref: tsubsetreference);
var
tmpreg: tregister;
begin
tmpreg := getintregister(list,tosubsetsize);
a_load_subsetreg_reg(list,fromsubsetsize,tosubsetsize,fromsreg,tmpreg);
a_load_reg_subsetref(list,tosubsetsize,tosubsetsize,tmpreg,tosref);
end;
procedure thlcgobj.a_bit_test_reg_reg_reg(list: TAsmList; bitnumbersize, valuesize, destsize: tdef; bitnumber, value, destreg: tregister);
var
tmpvalue: tregister;
begin
tmpvalue:=getintregister(list,valuesize);
if (target_info.endian=endian_little) then
begin
{ rotate value register "bitnumber" bits to the right }
a_op_reg_reg_reg(list,OP_SHR,valuesize,bitnumber,value,tmpvalue);
{ extract the bit we want }
a_op_const_reg(list,OP_AND,valuesize,1,tmpvalue);
end
else
begin
{ highest (leftmost) bit = bit 0 -> shl bitnumber results in wanted }
{ bit in uppermost position, then move it to the lowest position }
{ "and" is not necessary since combination of shl/shr will clear }
{ all other bits }
a_op_reg_reg_reg(list,OP_SHL,valuesize,bitnumber,value,tmpvalue);
a_op_const_reg(list,OP_SHR,valuesize,valuesize.size*8-1,tmpvalue);
end;
a_load_reg_reg(list,valuesize,destsize,tmpvalue,destreg);
end;
procedure thlcgobj.a_bit_test_const_ref_reg(list: TAsmList; fromsize, destsize: tdef; bitnumber: aint; const ref: treference; destreg: tregister);
var
href: treference;
begin
href:=ref;
g_ptrtypecast_ref(list,cpointerdef.getreusable(fromsize),cpointerdef.getreusable(u8inttype),href);
a_load_subsetref_reg(list,u8inttype,destsize,get_bit_const_ref_sref(bitnumber,fromsize,href),destreg);
end;
procedure thlcgobj.a_bit_test_const_reg_reg(list: TAsmList; setregsize, destsize: tdef; bitnumber: aint; setreg, destreg: tregister);
begin
a_load_subsetreg_reg(list,setregsize,destsize,get_bit_const_reg_sreg(setregsize,bitnumber,setreg),destreg);
end;
procedure thlcgobj.a_bit_test_const_subsetreg_reg(list: TAsmList; fromsubsetsize, destsize: tdef; bitnumber: aint; const setreg: tsubsetregister; destreg: tregister);
var
tmpsreg: tsubsetregister;
begin
{ the first parameter is used to calculate the bit offset in }
{ case of big endian, and therefore must be the size of the }
{ set and not of the whole subsetreg }
tmpsreg:=get_bit_const_reg_sreg(fromsubsetsize,bitnumber,setreg.subsetreg);
{ now fix the size of the subsetreg }
tmpsreg.subsetregsize:=setreg.subsetregsize;
{ correct offset of the set in the subsetreg }
inc(tmpsreg.startbit,setreg.startbit);
a_load_subsetreg_reg(list,fromsubsetsize,destsize,tmpsreg,destreg);
end;
procedure thlcgobj.a_bit_test_reg_ref_reg(list: TAsmList; bitnumbersize, refsize, destsize: tdef; bitnumber: tregister; const ref: treference; destreg: tregister);
var
href: treference;
begin
href:=ref;
g_ptrtypecast_ref(list,cpointerdef.getreusable(refsize),cpointerdef.getreusable(u8inttype),href);
a_load_subsetref_reg(list,u8inttype,destsize,get_bit_reg_ref_sref(list,bitnumbersize,refsize,bitnumber,href),destreg);
end;
procedure thlcgobj.a_bit_test_reg_loc_reg(list: TAsmList; bitnumbersize, locsize, destsize: tdef; bitnumber: tregister; const loc: tlocation; destreg: tregister);
var
tmpreg: tregister;
begin
case loc.loc of
LOC_REFERENCE,LOC_CREFERENCE:
a_bit_test_reg_ref_reg(list,bitnumbersize,locsize,destsize,bitnumber,loc.reference,destreg);
LOC_REGISTER,LOC_CREGISTER,
LOC_SUBSETREG,LOC_CSUBSETREG,
LOC_CONSTANT:
begin
case loc.loc of
LOC_REGISTER,LOC_CREGISTER:
tmpreg:=loc.register;
LOC_SUBSETREG,LOC_CSUBSETREG:
begin
tmpreg:=getintregister(list,locsize);
a_load_subsetreg_reg(list,locsize,locsize,loc.sreg,tmpreg);
end;
LOC_CONSTANT:
begin
tmpreg:=getintregister(list,locsize);
a_load_const_reg(list,locsize,loc.value,tmpreg);
end;
else
internalerror(2013112909);
end;
a_bit_test_reg_reg_reg(list,bitnumbersize,locsize,destsize,bitnumber,tmpreg,destreg);
end;
{ LOC_SUBSETREF is not possible, because sets are not (yet) bitpacked }
else
internalerror(2010120411);
end;
end;
procedure thlcgobj.a_bit_test_const_loc_reg(list: TAsmList; locsize, destsize: tdef; bitnumber: aint; const loc: tlocation; destreg: tregister);
begin
case loc.loc of
LOC_REFERENCE,LOC_CREFERENCE:
a_bit_test_const_ref_reg(list,locsize,destsize,bitnumber,loc.reference,destreg);
LOC_REGISTER,LOC_CREGISTER:
a_bit_test_const_reg_reg(list,locsize,destsize,bitnumber,loc.register,destreg);
LOC_SUBSETREG,LOC_CSUBSETREG:
a_bit_test_const_subsetreg_reg(list,locsize,destsize,bitnumber,loc.sreg,destreg);
{ LOC_SUBSETREF is not possible, because sets are not (yet) bitpacked }
else
internalerror(2010120410);
end;
end;
procedure thlcgobj.a_bit_set_reg_reg(list: TAsmList; doset: boolean; bitnumbersize, destsize: tdef; bitnumber, dest: tregister);
var
tmpvalue: tregister;
begin
tmpvalue:=getintregister(list,destsize);
if (target_info.endian=endian_little) then
begin
a_load_const_reg(list,destsize,1,tmpvalue);
{ rotate bit "bitnumber" bits to the left }
a_op_reg_reg(list,OP_SHL,destsize,bitnumber,tmpvalue);
end
else
begin
{ highest (leftmost) bit = bit 0 -> "$80/$8000/$80000000/ ... }
{ shr bitnumber" results in correct mask }
a_load_const_reg(list,destsize,1 shl (destsize.size*8-1),tmpvalue);
a_op_reg_reg(list,OP_SHR,destsize,bitnumber,tmpvalue);
end;
{ set/clear the bit we want }
if doset then
a_op_reg_reg(list,OP_OR,destsize,tmpvalue,dest)
else
begin
a_op_reg_reg(list,OP_NOT,destsize,tmpvalue,tmpvalue);
a_op_reg_reg(list,OP_AND,destsize,tmpvalue,dest)
end;
end;
procedure thlcgobj.a_bit_set_const_ref(list: TAsmList; doset: boolean; destsize: tdef; bitnumber: tcgint; const ref: treference);
var
href: treference;
begin
href:=ref;
g_ptrtypecast_ref(list,cpointerdef.getreusable(destsize),cpointerdef.getreusable(u8inttype),href);
a_load_const_subsetref(list,u8inttype,ord(doset),get_bit_const_ref_sref(bitnumber,destsize,href));
end;
procedure thlcgobj.a_bit_set_const_reg(list: TAsmList; doset: boolean; destsize: tdef; bitnumber: tcgint; destreg: tregister);
begin
g_ptrtypecast_reg(list,cpointerdef.getreusable(destsize),cpointerdef.getreusable(u8inttype),destreg);
a_load_const_subsetreg(list,u8inttype,ord(doset),get_bit_const_reg_sreg(destsize,bitnumber,destreg));
end;
procedure thlcgobj.a_bit_set_const_subsetreg(list: TAsmList; doset: boolean; destsize: tdef; bitnumber: tcgint; const destreg: tsubsetregister);
var
tmpsreg: tsubsetregister;
begin
{ the first parameter is used to calculate the bit offset in }
{ case of big endian, and therefore must be the size of the }
{ set and not of the whole subsetreg }
tmpsreg:=get_bit_const_reg_sreg(destsize,bitnumber,destreg.subsetreg);
{ now fix the size of the subsetreg }
tmpsreg.subsetregsize:=destreg.subsetregsize;
{ correct offset of the set in the subsetreg }
inc(tmpsreg.startbit,destreg.startbit);
a_load_const_subsetreg(list,u8inttype,ord(doset),tmpsreg);
end;
procedure thlcgobj.a_bit_set_reg_ref(list: TAsmList; doset: boolean; fromsize, tosize: tdef; bitnumber: tregister; const ref: treference);
var
href: treference;
begin
href:=ref;
g_ptrtypecast_ref(list,cpointerdef.getreusable(tosize),cpointerdef.getreusable(u8inttype),href);
a_load_const_subsetref(list,u8inttype,ord(doset),get_bit_reg_ref_sref(list,fromsize,tosize,bitnumber,href));
end;
procedure thlcgobj.a_bit_set_reg_loc(list: TAsmList; doset: boolean; regsize, tosize: tdef; bitnumber: tregister; const loc: tlocation);
var
tmpreg: tregister;
begin
case loc.loc of
LOC_REFERENCE:
a_bit_set_reg_ref(list,doset,regsize,tosize,bitnumber,loc.reference);
LOC_CREGISTER:
a_bit_set_reg_reg(list,doset,regsize,tosize,bitnumber,loc.register);
{ e.g. a 2-byte set in a record regvar }
LOC_CSUBSETREG:
begin
{ hard to do in-place in a generic way, so operate on a copy }
tmpreg:=getintregister(list,tosize);
a_load_subsetreg_reg(list,tosize,tosize,loc.sreg,tmpreg);
a_bit_set_reg_reg(list,doset,regsize,tosize,bitnumber,tmpreg);
a_load_reg_subsetreg(list,tosize,tosize,tmpreg,loc.sreg);
end;
{ LOC_SUBSETREF is not possible, because sets are not (yet) bitpacked }
else
internalerror(2010120408)
end;
end;
procedure thlcgobj.a_bit_set_const_loc(list: TAsmList; doset: boolean; tosize: tdef; bitnumber: tcgint; const loc: tlocation);
begin
case loc.loc of
LOC_REFERENCE:
a_bit_set_const_ref(list,doset,tosize,bitnumber,loc.reference);
LOC_CREGISTER:
a_bit_set_const_reg(list,doset,tosize,bitnumber,loc.register);
LOC_CSUBSETREG:
a_bit_set_const_subsetreg(list,doset,tosize,bitnumber,loc.sreg);
{ LOC_SUBSETREF is not possible, because sets are not (yet) bitpacked }
else
internalerror(2010120409)
end;
end;
function thlcgobj.get_call_result_cgpara(pd: tabstractprocdef; forceresdef: tdef): tcgpara;
begin
if not assigned(forceresdef) then
begin
pd.init_paraloc_info(callerside);
result:=pd.funcretloc[callerside];
end
else
result:=paramanager.get_funcretloc(pd,callerside,forceresdef);
end;
(*
Subsetrefs are used for (bit)packed arrays and (bit)packed records stored
in memory. They are like a regular reference, but contain an extra bit
offset (either constant -startbit- or variable -bitindexreg-, always OS_INT)
and a bit length (always constant).
Bit packed values are stored differently in memory depending on whether we
are on a big or a little endian system (compatible with at least GPC). The
size of the basic working unit is always the smallest power-of-2 byte size
which can contain the bit value (so 1..8 bits -> 1 byte, 9..16 bits -> 2
bytes, 17..32 bits -> 4 bytes etc).
On a big endian, 5-bit: values are stored like this:
11111222 22333334 44445555 56666677 77788888
The leftmost bit of each 5-bit value corresponds to the most significant
bit.
On little endian, it goes like this:
22211111 43333322 55554444 77666665 88888777
In this case, per byte the left-most bit is more significant than those on
the right, but the bits in the next byte are all more significant than
those in the previous byte (e.g., the 222 in the first byte are the low
three bits of that value, while the 22 in the second byte are the upper
two bits.
Big endian, 9 bit values:
11111111 12222222 22333333 33344444 ...
Little endian, 9 bit values:
11111111 22222221 33333322 44444333 ...
This is memory representation and the 16 bit values are byteswapped.
Similarly as in the previous case, the 2222222 string contains the lower
bits of value 2 and the 22 string contains the upper bits. Once loaded into
registers (two 16 bit registers in the current implementation, although a
single 32 bit register would be possible too, in particular if 32 bit
alignment can be guaranteed), this becomes:
22222221 11111111 44444333 33333322 ...
(l)ow u l l u l u
The startbit/bitindex in a subsetreference always refers to
a) on big endian: the most significant bit of the value
(bits counted from left to right, both memory an registers)
b) on little endian: the least significant bit when the value
is loaded in a register (bit counted from right to left)
Although a) results in more complex code for big endian systems, it's
needed for compatibility both with GPC and with e.g. bitpacked arrays in
Apple's universal interfaces which depend on these layout differences).
Note: when changing the loadsize calculated in get_subsetref_load_info,
make sure the appropriate alignment is guaranteed, at least in case of
{$defined cpurequiresproperalignment}.
*)
procedure thlcgobj.get_subsetref_load_info(const sref: tsubsetreference; out loadsize: torddef; out extra_load: boolean);
var
intloadsize: tcgint;
begin
intloadsize:=packedbitsloadsize(sref.bitlen);
if (intloadsize=0) then
internalerror(2006081310);
if (intloadsize>sizeof(aint)) then
intloadsize:=sizeof(aint);
loadsize:=cgsize_orddef(int_cgsize(intloadsize));
if (sref.bitlen>sizeof(aint)*8) then
internalerror(2006081312);
extra_load:=
(sref.bitlen<>1) and
((sref.bitindexreg<>NR_NO) or
(byte(sref.startbit+sref.bitlen)>byte(intloadsize*8)));
end;
procedure thlcgobj.a_load_subsetref_regs_noindex(list: TAsmList; subsetsize: tdef; loadbitsize: byte; const sref: tsubsetreference; valuereg, extra_value_reg: tregister);
var
restbits: byte;
begin
if (target_info.endian=endian_big) then
begin
{ valuereg contains the upper bits, extra_value_reg the lower }
restbits:=(sref.bitlen-(loadbitsize-sref.startbit));
if is_signed(subsetsize) then
begin
{ sign extend }
a_op_const_reg(list,OP_SHL,osuinttype,AIntBits-loadbitsize+sref.startbit,valuereg);
a_op_const_reg(list,OP_SAR,osuinttype,AIntBits-sref.bitlen,valuereg);
end
else
begin
a_op_const_reg(list,OP_SHL,osuinttype,restbits,valuereg);
{ mask other bits }
if (sref.bitlen<>AIntBits) then
a_op_const_reg(list,OP_AND,osuinttype,tcgint((aword(1) shl sref.bitlen)-1),valuereg);
end;
a_op_const_reg(list,OP_SHR,osuinttype,loadbitsize-restbits,extra_value_reg)
end
else
begin
{ valuereg contains the lower bits, extra_value_reg the upper }
a_op_const_reg(list,OP_SHR,osuinttype,sref.startbit,valuereg);
if is_signed(subsetsize) then
begin
a_op_const_reg(list,OP_SHL,osuinttype,AIntBits-sref.bitlen+loadbitsize-sref.startbit,extra_value_reg);
a_op_const_reg(list,OP_SAR,osuinttype,AIntBits-sref.bitlen,extra_value_reg);
end
else
begin
a_op_const_reg(list,OP_SHL,osuinttype,loadbitsize-sref.startbit,extra_value_reg);
{ mask other bits }
if (sref.bitlen <> AIntBits) then
a_op_const_reg(list,OP_AND,osuinttype,tcgint((aword(1) shl sref.bitlen)-1),extra_value_reg);
end;
end;
{ merge }
a_op_reg_reg(list,OP_OR,osuinttype,extra_value_reg,valuereg);
end;
procedure thlcgobj.a_load_subsetref_regs_index(list: TAsmList; subsetsize: tdef; loadbitsize: byte; const sref: tsubsetreference; valuereg: tregister);
var
hl: tasmlabel;
tmpref: treference;
extra_value_reg,
tmpreg: tregister;
begin
tmpreg:=getintregister(list,osuinttype);
tmpref:=sref.ref;
inc(tmpref.offset,loadbitsize div 8);
extra_value_reg:=getintregister(list,osuinttype);
if (target_info.endian=endian_big) then
begin
{ since this is a dynamic index, it's possible that the value }
{ is entirely in valuereg. }
{ get the data in valuereg in the right place }
a_op_reg_reg(list,OP_SHL,osuinttype,sref.bitindexreg,valuereg);
if is_signed(subsetsize) then
begin
a_op_const_reg(list,OP_SHL,osuinttype,AIntBits-loadbitsize,valuereg);
a_op_const_reg(list,OP_SAR,osuinttype,AIntBits-sref.bitlen,valuereg)
end
else
begin
a_op_const_reg(list,OP_SHR,osuinttype,loadbitsize-sref.bitlen,valuereg);
if (loadbitsize<>AIntBits) then
{ mask left over bits }
a_op_const_reg(list,OP_AND,osuinttype,tcgint((aword(1) shl sref.bitlen)-1),valuereg);
end;
tmpreg := getintregister(list,osuinttype);
{ ensure we don't load anything past the end of the array }
current_asmdata.getjumplabel(hl);
a_cmp_const_reg_label(list,osuinttype,OC_BE,loadbitsize-sref.bitlen,sref.bitindexreg,hl);
{ the bits in extra_value_reg (if any) start at the most significant bit => }
{ extra_value_reg must be shr by (loadbitsize-sref.bitlen)+(loadsize-sref.bitindex) }
{ => = -(sref.bitindex+(sref.bitlen-2*loadbitsize)) }
a_op_const_reg_reg(list,OP_ADD,osuinttype,sref.bitlen-2*loadbitsize,sref.bitindexreg,tmpreg);
a_op_reg_reg(list,OP_NEG,osuinttype,tmpreg,tmpreg);
{ load next "loadbitsize" bits of the array }
a_load_ref_reg(list,cgsize_orddef(int_cgsize(loadbitsize div 8)),osuinttype,tmpref,extra_value_reg);
a_op_reg_reg(list,OP_SHR,osuinttype,tmpreg,extra_value_reg);
{ if there are no bits in extra_value_reg, then sref.bitindex was }
{ < loadsize-sref.bitlen, and therefore tmpreg will now be >= loadsize }
{ => extra_value_reg is now 0 }
{ merge }
a_op_reg_reg(list,OP_OR,osuinttype,extra_value_reg,valuereg);
{ no need to mask, necessary masking happened earlier on }
a_label(list,hl);
end
else
begin
a_op_reg_reg(list,OP_SHR,osuinttype,sref.bitindexreg,valuereg);
{ ensure we don't load anything past the end of the array }
current_asmdata.getjumplabel(hl);
a_cmp_const_reg_label(list,osuinttype,OC_BE,loadbitsize-sref.bitlen,sref.bitindexreg,hl);
{ Y-x = -(Y-x) }
a_op_const_reg_reg(list,OP_SUB,osuinttype,loadbitsize,sref.bitindexreg,tmpreg);
a_op_reg_reg(list,OP_NEG,osuinttype,tmpreg,tmpreg);
{ load next "loadbitsize" bits of the array }
a_load_ref_reg(list,cgsize_orddef(int_cgsize(loadbitsize div 8)),osuinttype,tmpref,extra_value_reg);
{ tmpreg is in the range 1..<cpu_bitsize>-1 -> always ok }
a_op_reg_reg(list,OP_SHL,osuinttype,tmpreg,extra_value_reg);
{ merge }
a_op_reg_reg(list,OP_OR,osuinttype,extra_value_reg,valuereg);
a_label(list,hl);
{ sign extend or mask other bits }
if is_signed(subsetsize) then
begin
a_op_const_reg(list,OP_SHL,osuinttype,AIntBits-sref.bitlen,valuereg);
a_op_const_reg(list,OP_SAR,osuinttype,AIntBits-sref.bitlen,valuereg);
end
else
a_op_const_reg(list,OP_AND,osuinttype,tcgint((aword(1) shl sref.bitlen)-1),valuereg);
end;
end;
procedure thlcgobj.a_load_regconst_subsetref_intern(list: TAsmList; fromsize, subsetsize: tdef; fromreg: tregister; const sref: tsubsetreference; slopt: tsubsetloadopt);
var
hl: tasmlabel;
tmpreg, tmpindexreg, valuereg, extra_value_reg, maskreg: tregister;
tosreg, fromsreg: tsubsetregister;
tmpref: treference;
bitmask: aword;
loadsize: torddef;
loadbitsize: byte;
extra_load: boolean;
begin
{ the register must be able to contain the requested value }
if (fromsize.size*8<sref.bitlen) then
internalerror(2006081613);
get_subsetref_load_info(sref,loadsize,extra_load);
loadbitsize:=loadsize.size*8;
{ load the (first part) of the bit sequence }
valuereg:=getintregister(list,osuinttype);
a_load_ref_reg(list,loadsize,osuinttype,sref.ref,valuereg);
{ constant offset of bit sequence? }
if not extra_load then
begin
if (sref.bitindexreg=NR_NO) then
begin
{ use subsetreg routine, it may have been overridden with an optimized version }
tosreg.subsetreg:=valuereg;
tosreg.subsetregsize:=def_cgsize(osuinttype);
{ subsetregs always count bits from right to left }
if (target_info.endian=endian_big) then
tosreg.startbit:=loadbitsize-(sref.startbit+sref.bitlen)
else
tosreg.startbit:=sref.startbit;
tosreg.bitlen:=sref.bitlen;
a_load_regconst_subsetreg_intern(list,fromsize,subsetsize,fromreg,tosreg,slopt);
end
else
begin
if (sref.startbit<>0) then
internalerror(2006081710);
{ should be handled by normal code and will give wrong result }
{ on x86 for the '1 shl bitlen' below }
if (sref.bitlen=AIntBits) then
internalerror(2006081711);
{ zero the bits we have to insert }
if (slopt<>SL_SETMAX) then
begin
maskreg:=getintregister(list,osuinttype);
if (target_info.endian = endian_big) then
begin
a_load_const_reg(list,osuinttype,tcgint((aword(1) shl sref.bitlen)-1) shl (loadbitsize-sref.bitlen),maskreg);
a_op_reg_reg(list,OP_SHR,osuinttype,sref.bitindexreg,maskreg);
end
else
begin
a_load_const_reg(list,osuinttype,tcgint((aword(1) shl sref.bitlen)-1),maskreg);
a_op_reg_reg(list,OP_SHL,osuinttype,sref.bitindexreg,maskreg);
end;
a_op_reg_reg(list,OP_NOT,osuinttype,maskreg,maskreg);
a_op_reg_reg(list,OP_AND,osuinttype,maskreg,valuereg);
end;
{ insert the value }
if (slopt<>SL_SETZERO) then
begin
tmpreg:=getintregister(list,osuinttype);
if (slopt<>SL_SETMAX) then
a_load_reg_reg(list,fromsize,osuinttype,fromreg,tmpreg)
else if (sref.bitlen<>AIntBits) then
a_load_const_reg(list,osuinttype,tcgint((aword(1) shl sref.bitlen)-1), tmpreg)
else
a_load_const_reg(list,osuinttype,-1,tmpreg);
if (target_info.endian=endian_big) then
begin
a_op_const_reg(list,OP_SHL,osuinttype,loadbitsize-sref.bitlen,tmpreg);
if not(slopt in [SL_REGNOSRCMASK,SL_SETMAX]) then
begin
if (loadbitsize<>AIntBits) then
bitmask:=(((aword(1) shl loadbitsize)-1) xor ((aword(1) shl (loadbitsize-sref.bitlen))-1))
else
bitmask:=(high(aword) xor ((aword(1) shl (loadbitsize-sref.bitlen))-1));
a_op_const_reg(list,OP_AND,osuinttype,bitmask,tmpreg);
end;
a_op_reg_reg(list,OP_SHR,osuinttype,sref.bitindexreg,tmpreg);
end
else
begin
if not(slopt in [SL_REGNOSRCMASK,SL_SETMAX]) then
a_op_const_reg(list,OP_AND,osuinttype,tcgint((aword(1) shl sref.bitlen)-1),tmpreg);
a_op_reg_reg(list,OP_SHL,osuinttype,sref.bitindexreg,tmpreg);
end;
a_op_reg_reg(list,OP_OR,osuinttype,tmpreg,valuereg);
end;
end;
{ store back to memory }
tmpreg:=getintregister(list,loadsize);
a_load_reg_reg(list,osuinttype,loadsize,valuereg,tmpreg);
a_load_reg_ref(list,loadsize,loadsize,tmpreg,sref.ref);
exit;
end
else
begin
{ load next value }
extra_value_reg:=getintregister(list,osuinttype);
tmpref:=sref.ref;
inc(tmpref.offset,loadbitsize div 8);
{ should maybe be taken out too, can be done more efficiently }
{ on e.g. i386 with shld/shrd }
if (sref.bitindexreg = NR_NO) then
begin
a_load_ref_reg(list,loadsize,osuinttype,tmpref,extra_value_reg);
fromsreg.subsetreg:=fromreg;
fromsreg.subsetregsize:=def_cgsize(fromsize);
tosreg.subsetreg:=valuereg;
tosreg.subsetregsize:=def_cgsize(osuinttype);
{ transfer first part }
fromsreg.bitlen:=loadbitsize-sref.startbit;
tosreg.bitlen:=fromsreg.bitlen;
if (target_info.endian=endian_big) then
begin
{ valuereg must contain the upper bits of the value at bits [0..loadbitsize-startbit] }
{ upper bits of the value ... }
fromsreg.startbit:=sref.bitlen-(loadbitsize-sref.startbit);
{ ... to bit 0 }
tosreg.startbit:=0
end
else
begin
{ valuereg must contain the lower bits of the value at bits [startbit..loadbitsize] }
{ lower bits of the value ... }
fromsreg.startbit:=0;
{ ... to startbit }
tosreg.startbit:=sref.startbit;
end;
case slopt of
SL_SETZERO,
SL_SETMAX:
a_load_regconst_subsetreg_intern(list,fromsize,subsetsize,fromreg,tosreg,slopt);
else
a_load_subsetreg_subsetreg(list,subsetsize,subsetsize,fromsreg,tosreg);
end;
{$ifndef cpuhighleveltarget}
valuereg:=cg.makeregsize(list,valuereg,def_cgsize(loadsize));
a_load_reg_ref(list,loadsize,loadsize,valuereg,sref.ref);
{$else}
tmpreg:=getintregister(list,loadsize);
a_load_reg_reg(list,osuinttype,loadsize,valuereg,tmpreg);
a_load_reg_ref(list,loadsize,loadsize,tmpreg,sref.ref);
{$endif}
{ transfer second part }
if (target_info.endian = endian_big) then
begin
{ extra_value_reg must contain the lower bits of the value at bits }
{ [(loadbitsize-(bitlen-(loadbitsize-startbit)))..loadbitsize] }
{ (loadbitsize-(bitlen-(loadbitsize-startbit))) = 2*loadbitsize }
{ - bitlen - startbit }
fromsreg.startbit:=0;
tosreg.startbit:=2*loadbitsize-sref.bitlen-sref.startbit
end
else
begin
{ extra_value_reg must contain the upper bits of the value at bits [0..bitlen-(loadbitsize-startbit)] }
fromsreg.startbit:=fromsreg.bitlen;
tosreg.startbit:=0;
end;
tosreg.subsetreg:=extra_value_reg;
fromsreg.bitlen:=sref.bitlen-fromsreg.bitlen;
tosreg.bitlen:=fromsreg.bitlen;
case slopt of
SL_SETZERO,
SL_SETMAX:
a_load_regconst_subsetreg_intern(list,fromsize,subsetsize,fromreg,tosreg,slopt);
else
a_load_subsetreg_subsetreg(list,subsetsize,subsetsize,fromsreg,tosreg);
end;
tmpreg:=getintregister(list,loadsize);
a_load_reg_reg(list,osuinttype,loadsize,extra_value_reg,tmpreg);
a_load_reg_ref(list,loadsize,loadsize,tmpreg,tmpref);
exit;
end
else
begin
if (sref.startbit <> 0) then
internalerror(2006081812);
{ should be handled by normal code and will give wrong result }
{ on x86 for the '1 shl bitlen' below }
if (sref.bitlen = AIntBits) then
internalerror(2006081713);
{ generate mask to zero the bits we have to insert }
if (slopt <> SL_SETMAX) then
begin
maskreg := getintregister(list,osuinttype);
if (target_info.endian = endian_big) then
begin
a_load_const_reg(list,osuinttype,tcgint(((aword(1) shl sref.bitlen)-1) shl (loadbitsize-sref.bitlen)),maskreg);
a_op_reg_reg(list,OP_SHR,osuinttype,sref.bitindexreg,maskreg);
end
else
begin
a_load_const_reg(list,osuinttype,tcgint((aword(1) shl sref.bitlen)-1),maskreg);
a_op_reg_reg(list,OP_SHL,osuinttype,sref.bitindexreg,maskreg);
end;
a_op_reg_reg(list,OP_NOT,osuinttype,maskreg,maskreg);
a_op_reg_reg(list,OP_AND,osuinttype,maskreg,valuereg);
end;
{ insert the value }
if (slopt <> SL_SETZERO) then
begin
tmpreg := getintregister(list,osuinttype);
if (slopt <> SL_SETMAX) then
a_load_reg_reg(list,fromsize,osuinttype,fromreg,tmpreg)
else if (sref.bitlen <> AIntBits) then
a_load_const_reg(list,osuinttype,tcgint((aword(1) shl sref.bitlen) - 1), tmpreg)
else
a_load_const_reg(list,osuinttype,-1,tmpreg);
if (target_info.endian = endian_big) then
begin
a_op_const_reg(list,OP_SHL,osuinttype,loadbitsize-sref.bitlen,tmpreg);
if not(slopt in [SL_REGNOSRCMASK,SL_SETMAX]) then
{ mask left over bits }
a_op_const_reg(list,OP_AND,osuinttype,tcgint(((aword(1) shl sref.bitlen)-1) shl (loadbitsize-sref.bitlen)),tmpreg);
a_op_reg_reg(list,OP_SHR,osuinttype,sref.bitindexreg,tmpreg);
end
else
begin
if not(slopt in [SL_REGNOSRCMASK,SL_SETMAX]) then
{ mask left over bits }
a_op_const_reg(list,OP_AND,osuinttype,tcgint((aword(1) shl sref.bitlen)-1),tmpreg);
a_op_reg_reg(list,OP_SHL,osuinttype,sref.bitindexreg,tmpreg);
end;
a_op_reg_reg(list,OP_OR,osuinttype,tmpreg,valuereg);
end;
tmpreg:=getintregister(list,loadsize);
a_load_reg_reg(list,osuinttype,loadsize,valuereg,tmpreg);
a_load_reg_ref(list,loadsize,loadsize,tmpreg,sref.ref);
{ make sure we do not read/write past the end of the array }
current_asmdata.getjumplabel(hl);
a_cmp_const_reg_label(list,osuinttype,OC_BE,loadbitsize-sref.bitlen,sref.bitindexreg,hl);
a_load_ref_reg(list,loadsize,osuinttype,tmpref,extra_value_reg);
tmpindexreg:=getintregister(list,osuinttype);
{ load current array value }
if (slopt<>SL_SETZERO) then
begin
tmpreg:=getintregister(list,osuinttype);
if (slopt<>SL_SETMAX) then
a_load_reg_reg(list,fromsize,osuinttype,fromreg,tmpreg)
else if (sref.bitlen<>AIntBits) then
a_load_const_reg(list,osuinttype,tcgint((aword(1) shl sref.bitlen) - 1), tmpreg)
else
a_load_const_reg(list,osuinttype,-1,tmpreg);
end;
{ generate mask to zero the bits we have to insert }
if (slopt<>SL_SETMAX) then
begin
maskreg:=getintregister(list,osuinttype);
if (target_info.endian=endian_big) then
begin
a_op_const_reg_reg(list,OP_ADD,osuinttype,sref.bitlen-2*loadbitsize,sref.bitindexreg,tmpindexreg);
a_op_reg_reg(list,OP_NEG,osuinttype,tmpindexreg,tmpindexreg);
a_load_const_reg(list,osuinttype,tcgint((aword(1) shl sref.bitlen)-1),maskreg);
a_op_reg_reg(list,OP_SHL,osuinttype,tmpindexreg,maskreg);
end
else
begin
{ Y-x = -(x-Y) }
a_op_const_reg_reg(list,OP_SUB,osuinttype,loadbitsize,sref.bitindexreg,tmpindexreg);
a_op_reg_reg(list,OP_NEG,osuinttype,tmpindexreg,tmpindexreg);
a_load_const_reg(list,osuinttype,tcgint((aword(1) shl sref.bitlen)-1),maskreg);
a_op_reg_reg(list,OP_SHR,osuinttype,tmpindexreg,maskreg);
end;
a_op_reg_reg(list,OP_NOT,osuinttype,maskreg,maskreg);
a_op_reg_reg(list,OP_AND,osuinttype,maskreg,extra_value_reg);
end;
if (slopt<>SL_SETZERO) then
begin
if (target_info.endian=endian_big) then
a_op_reg_reg(list,OP_SHL,osuinttype,tmpindexreg,tmpreg)
else
begin
if not(slopt in [SL_REGNOSRCMASK,SL_SETMAX]) then
a_op_const_reg(list,OP_AND,osuinttype,tcgint((aword(1) shl sref.bitlen)-1),tmpreg);
a_op_reg_reg(list,OP_SHR,osuinttype,tmpindexreg,tmpreg);
end;
a_op_reg_reg(list,OP_OR,osuinttype,tmpreg,extra_value_reg);
end;
{$ifndef cpuhighleveltarget}
extra_value_reg:=cg.makeregsize(list,extra_value_reg,def_cgsize(loadsize));
a_load_reg_ref(list,loadsize,loadsize,extra_value_reg,tmpref);
{$else}
tmpreg:=getintregister(list,loadsize);
a_load_reg_reg(list,osuinttype,loadsize,extra_value_reg,tmpreg);
a_load_reg_ref(list,loadsize,loadsize,tmpreg,tmpref);
{$endif}
a_label(list,hl);
end;
end;
end;
procedure thlcgobj.a_load_regconst_subsetreg_intern(list: TAsmList; fromsize, subsetsize: tdef; fromreg: tregister; const sreg: tsubsetregister; slopt: tsubsetloadopt);
var
bitmask: aword;
tmpreg: tregister;
subsetregdef: torddef;
stopbit: byte;
begin
tmpreg:=NR_NO;
subsetregdef:=cgsize_orddef(sreg.subsetregsize);
stopbit:=sreg.startbit+sreg.bitlen;
// on x86(64), 1 shl 32(64) = 1 instead of 0
if (stopbit<>AIntBits) then
bitmask:=not(((aword(1) shl stopbit)-1) xor ((aword(1) shl sreg.startbit)-1))
else
bitmask:=not(high(aword) xor ((aword(1) shl sreg.startbit)-1));
if not(slopt in [SL_SETZERO,SL_SETMAX]) then
begin
tmpreg:=getintregister(list,subsetregdef);
a_load_reg_reg(list,fromsize,subsetregdef,fromreg,tmpreg);
a_op_const_reg(list,OP_SHL,subsetregdef,sreg.startbit,tmpreg);
if (slopt<>SL_REGNOSRCMASK) then
a_op_const_reg(list,OP_AND,subsetregdef,tcgint(not(bitmask)),tmpreg);
end;
if (slopt<>SL_SETMAX) and
{ the "and" is not needed if the whole register is modified (except for SL_SETZERO),
because later on we do a move in this case instead of an or }
((sreg.bitlen<>AIntBits) or (slopt=SL_SETZERO)) then
begin
{ shl could wrap around in this case }
if subsetregdef.size=sizeof(aword) then
a_op_const_reg(list,OP_AND,subsetregdef,tcgint(bitmask),sreg.subsetreg)
else
a_op_const_reg(list,OP_AND,subsetregdef,tcgint(bitmask) and aword((aword(1) shl (subsetregdef.size*8))-1),sreg.subsetreg);
end;
case slopt of
SL_SETZERO : ;
SL_SETMAX :
if (sreg.bitlen<>AIntBits) then
a_op_const_reg(list,OP_OR,subsetregdef,
tcgint(((aword(1) shl sreg.bitlen)-1) shl sreg.startbit),
sreg.subsetreg)
else
a_load_const_reg(list,subsetregdef,-1,sreg.subsetreg);
{ if the whole register is modified, no "or" is needed }
else if sreg.bitlen=AIntBits then
a_load_reg_reg(list,subsetregdef,subsetregdef,tmpreg,sreg.subsetreg)
else
a_op_reg_reg(list,OP_OR,subsetregdef,tmpreg,sreg.subsetreg)
end;
end;
{$pop}
function thlcgobj.get_bit_const_ref_sref(bitnumber: tcgint; refdef: tdef; const ref: treference): tsubsetreference;
begin
result.ref:=ref;
inc(result.ref.offset,bitnumber div 8);
result.ref.alignment:=newalignment(result.ref.alignment,bitnumber div 8);
result.bitindexreg:=NR_NO;
result.startbit:=bitnumber mod 8;
result.bitlen:=1;
end;
function thlcgobj.get_bit_const_reg_sreg(setregsize: tdef; bitnumber: tcgint; setreg: tregister): tsubsetregister;
begin
result.subsetreg:=setreg;
result.subsetregsize:=def_cgsize(setregsize);
{ subsetregs always count from the least significant to the most significant bit }
if (target_info.endian=endian_big) then
result.startbit:=(setregsize.size*8)-bitnumber-1
else
result.startbit:=bitnumber;
result.bitlen:=1;
end;
function thlcgobj.get_bit_reg_ref_sref(list: TAsmList; bitnumbersize, refsize: tdef; bitnumber: tregister; const ref: treference): tsubsetreference;
var
refptrdef: tdef;
tmpreg,
newbase: tregister;
begin
result.ref:=ref;
result.startbit:=0;
result.bitlen:=1;
tmpreg:=getintregister(list,ptruinttype);
a_load_reg_reg(list,bitnumbersize,ptruinttype,bitnumber,tmpreg);
a_op_const_reg(list,OP_SHR,ptruinttype,3,tmpreg);
{ don't assign to ref.base, that one is for pointers and this is an index
(important for platforms like LLVM) }
if result.ref.index<>NR_NO then
begin
{ don't just add to ref.index, as it may be scaled }
refptrdef:=cpointerdef.getreusable(refsize);
newbase:=getaddressregister(list,refptrdef);
a_loadaddr_ref_reg(list,refsize,refptrdef,ref,newbase);
reference_reset_base(result.ref,refptrdef,newbase,0,result.ref.temppos,result.ref.alignment,[]);
end;
result.ref.index:=tmpreg;
tmpreg:=getintregister(list,ptruinttype);
a_load_reg_reg(list,bitnumbersize,ptruinttype,bitnumber,tmpreg);
a_op_const_reg(list,OP_AND,ptruinttype,7,tmpreg);
result.bitindexreg:=tmpreg;
end;
procedure thlcgobj.a_loadfpu_ref_ref(list: TAsmList; fromsize, tosize: tdef; const ref1, ref2: treference);
var
reg: tregister;
regsize: tdef;
begin
if (fromsize.size>=tosize.size) then
regsize:=fromsize
else
regsize:=tosize;
reg:=getfpuregister(list,regsize);
a_loadfpu_ref_reg(list,fromsize,regsize,ref1,reg);
a_loadfpu_reg_ref(list,regsize,tosize,reg,ref2);
end;
procedure thlcgobj.a_loadfpu_loc_reg(list: TAsmList; fromsize, tosize: tdef; const loc: tlocation; const reg: tregister);
begin
case loc.loc of
LOC_REFERENCE, LOC_CREFERENCE:
a_loadfpu_ref_reg(list,fromsize,tosize,loc.reference,reg);
LOC_FPUREGISTER, LOC_CFPUREGISTER:
a_loadfpu_reg_reg(list,fromsize,tosize,loc.register,reg);
else
internalerror(2010120412);
end;
end;
procedure thlcgobj.a_loadfpu_loc_ref(list: TAsmList; fromsize, tosize: tdef; const loc: tlocation; const ref: treference);
var
reg: tregister;
begin
case loc.loc of
LOC_REFERENCE, LOC_CREFERENCE:
begin
reg:=getfpuregister(list,tosize);
a_loadfpu_ref_reg(list,fromsize,tosize,loc.reference,reg);
a_loadfpu_reg_ref(list,tosize,tosize,reg,ref);
end;
LOC_FPUREGISTER, LOC_CFPUREGISTER:
begin
a_loadfpu_reg_ref(list,fromsize,tosize,loc.register,ref);
end;
else
internalerror(2014080802);
end;
end;
procedure thlcgobj.a_loadfpu_reg_loc(list: TAsmList; fromsize, tosize: tdef; const reg: tregister; const loc: tlocation);
begin
case loc.loc of
LOC_REFERENCE, LOC_CREFERENCE:
a_loadfpu_reg_ref(list,fromsize,tosize,reg,loc.reference);
LOC_FPUREGISTER, LOC_CFPUREGISTER:
a_loadfpu_reg_reg(list,fromsize,tosize,reg,loc.register);
else
internalerror(2010120413);
end;
end;
procedure thlcgobj.a_loadfpu_reg_cgpara(list: TAsmList; fromsize: tdef; const r: tregister; const cgpara: TCGPara);
var
ref : treference;
begin
paramanager.alloccgpara(list,cgpara);
case cgpara.location^.loc of
LOC_FPUREGISTER,LOC_CFPUREGISTER:
begin
cgpara.check_simple_location;
a_loadfpu_reg_reg(list,fromsize,cgpara.def,r,cgpara.location^.register);
end;
LOC_REFERENCE,LOC_CREFERENCE:
begin
cgpara.check_simple_location;
reference_reset_base(ref,voidstackpointertype,cgpara.location^.reference.index,cgpara.location^.reference.offset,ctempposinvalid,cgpara.alignment,[]);
a_loadfpu_reg_ref(list,fromsize,cgpara.def,r,ref);
end;
LOC_REGISTER,LOC_CREGISTER:
begin
{ paramfpu_ref does the check_simpe_location check here if necessary }
tg.gethltemp(list,fromsize,fromsize.size,tt_normal,ref);
a_loadfpu_reg_ref(list,fromsize,fromsize,r,ref);
a_loadfpu_ref_cgpara(list,fromsize,ref,cgpara);
tg.Ungettemp(list,ref);
end;
else
internalerror(2010120422);
end;
end;
procedure thlcgobj.a_loadfpu_ref_cgpara(list: TAsmList; fromsize: tdef; const ref: treference; const cgpara: TCGPara);
var
hreg : tregister;
href : treference;
intptrdef: tdef;
begin
case cgpara.location^.loc of
LOC_FPUREGISTER,LOC_CFPUREGISTER:
begin
cgpara.check_simple_location;
paramanager.alloccgpara(list,cgpara);
a_loadfpu_ref_reg(list,fromsize,cgpara.location^.def,ref,cgpara.location^.register);
end;
LOC_REFERENCE,LOC_CREFERENCE:
begin
cgpara.check_simple_location;
reference_reset_base(href,voidstackpointertype,cgpara.location^.reference.index,cgpara.location^.reference.offset,ctempposinvalid,cgpara.alignment,[]);
{ concatcopy should choose the best way to copy the data }
g_concatcopy(list,fromsize,ref,href);
end;
LOC_REGISTER,LOC_CREGISTER:
begin
cgpara.check_simple_location;
if fromsize.size<>cgpara.location^.def.size then
internalerror(2014080603);
{ convert the reference from a floating point location to an
integer location, and load that }
intptrdef:=cpointerdef.getreusable(cgpara.location^.def);
hreg:=getaddressregister(list,intptrdef);
a_loadaddr_ref_reg(list,fromsize,intptrdef,ref,hreg);
reference_reset_base(href,intptrdef,hreg,0,ref.temppos,ref.alignment,[]);
a_load_ref_cgpara(list,cgpara.location^.def,ref,cgpara);
end
else
internalerror(2010120423);
end;
end;
procedure thlcgobj.a_loadmm_ref_ref(list: TAsmList; fromsize, tosize: tdef; const fromref, toref: treference; shuffle: pmmshuffle);
var
reg: tregister;
begin
reg:=getmmregister(list,tosize);
a_loadmm_ref_reg(list,fromsize,tosize,fromref,reg,shuffle);
a_loadmm_reg_ref(list,tosize,tosize,reg,toref,shuffle);
end;
procedure thlcgobj.a_loadmm_loc_reg(list: TAsmList; fromsize, tosize: tdef; const loc: tlocation; const reg: tregister; shuffle: pmmshuffle);
var
tmpreg: tregister;
begin
case loc.loc of
LOC_MMREGISTER,LOC_CMMREGISTER:
a_loadmm_reg_reg(list,fromsize,tosize,loc.register,reg,shuffle);
LOC_REFERENCE,LOC_CREFERENCE:
a_loadmm_ref_reg(list,fromsize,tosize,loc.reference,reg,shuffle);
LOC_REGISTER,LOC_CREGISTER:
a_loadmm_intreg_reg(list,fromsize,tosize,loc.register,reg,shuffle);
LOC_SUBSETREG,LOC_CSUBSETREG,
LOC_SUBSETREF,LOC_CSUBSETREF:
begin
tmpreg:=getintregister(list,fromsize);
a_load_loc_reg(list,fromsize,fromsize,loc,tmpreg);
a_loadmm_intreg_reg(list,fromsize,tosize,tmpreg,reg,shuffle);
end
else
internalerror(2010120414);
end;
end;
procedure thlcgobj.a_loadmm_reg_loc(list: TAsmList; fromsize, tosize: tdef; const reg: tregister; const loc: tlocation; shuffle: pmmshuffle);
begin
case loc.loc of
LOC_MMREGISTER,LOC_CMMREGISTER:
a_loadmm_reg_reg(list,fromsize,tosize,reg,loc.register,shuffle);
LOC_REFERENCE,LOC_CREFERENCE:
a_loadmm_reg_ref(list,fromsize,tosize,reg,loc.reference,shuffle);
else
internalerror(2010120415);
end;
end;
procedure thlcgobj.a_loadmm_loc_ref(list: TAsmList; fromsize, tosize: tdef; const loc: tlocation; const ref: treference; shuffle: pmmshuffle);
var
intreg, reg: tregister;
begin
case loc.loc of
LOC_MMREGISTER,LOC_CMMREGISTER:
a_loadmm_reg_ref(list,fromsize,tosize,loc.register,ref,shuffle);
LOC_REFERENCE,LOC_CREFERENCE:
begin
reg:=getmmregister(list,tosize);
a_loadmm_ref_reg(list,fromsize,tosize,loc.reference,reg,shuffle);
a_loadmm_reg_ref(list,tosize,tosize,reg,ref,shuffle);
end;
LOC_REGISTER,LOC_CREGISTER:
begin
reg:=getmmregister(list,tosize);
a_loadmm_intreg_reg(list,fromsize,tosize,loc.register,reg,shuffle);
a_loadmm_reg_ref(list,tosize,tosize,reg,ref,shuffle);
end;
LOC_SUBSETREG,LOC_CSUBSETREG,
LOC_SUBSETREF,LOC_CSUBSETREF:
begin
intreg:=getintregister(list,fromsize);
reg:=getmmregister(list,tosize);
a_load_loc_reg(list,fromsize,fromsize,loc,intreg);
a_loadmm_intreg_reg(list,fromsize,tosize,intreg,reg,shuffle);
a_loadmm_reg_ref(list,tosize,tosize,reg,ref,shuffle);
end
else
internalerror(2014080803);
end;
end;
procedure thlcgobj.a_loadmm_reg_cgpara(list: TAsmList; fromsize: tdef; reg: tregister; const cgpara: TCGPara; shuffle: pmmshuffle);
var
href : treference;
begin
cgpara.check_simple_location;
paramanager.alloccgpara(list,cgpara);
case cgpara.location^.loc of
LOC_MMREGISTER,LOC_CMMREGISTER:
a_loadmm_reg_reg(list,fromsize,cgpara.def,reg,cgpara.location^.register,shuffle);
LOC_REFERENCE,LOC_CREFERENCE:
begin
reference_reset_base(href,voidstackpointertype,cgpara.location^.reference.index,cgpara.location^.reference.offset,ctempposinvalid,cgpara.alignment,[]);
a_loadmm_reg_ref(list,fromsize,cgpara.def,reg,href,shuffle);
end;
LOC_REGISTER,LOC_CREGISTER:
begin
if assigned(shuffle) and
not shufflescalar(shuffle) then
internalerror(2012071205);
a_loadmm_reg_intreg(list,fromsize,cgpara.def,reg,cgpara.location^.register,mms_movescalar);
end
else
internalerror(2012071204);
end;
end;
procedure thlcgobj.a_loadmm_ref_cgpara(list: TAsmList; fromsize: tdef; const ref: treference; const cgpara: TCGPara; shuffle: pmmshuffle);
var
hr : tregister;
hs : tmmshuffle;
begin
cgpara.check_simple_location;
hr:=getmmregister(list,cgpara.def);
a_loadmm_ref_reg(list,fromsize,cgpara.def,ref,hr,shuffle);
if realshuffle(shuffle) then
begin
hs:=shuffle^;
removeshuffles(hs);
a_loadmm_reg_cgpara(list,cgpara.def,hr,cgpara,@hs);
end
else
a_loadmm_reg_cgpara(list,cgpara.def,hr,cgpara,shuffle);
end;
procedure thlcgobj.a_loadmm_loc_cgpara(list: TAsmList; fromsize: tdef; const loc: tlocation; const cgpara: TCGPara; shuffle: pmmshuffle);
begin
{$ifdef extdebug}
if def_cgsize(fromsize)<>loc.size then
internalerror(2012071203);
{$endif}
case loc.loc of
LOC_MMREGISTER,LOC_CMMREGISTER:
a_loadmm_reg_cgpara(list,fromsize,loc.register,cgpara,shuffle);
LOC_REFERENCE,LOC_CREFERENCE:
a_loadmm_ref_cgpara(list,fromsize,loc.reference,cgpara,shuffle);
else
internalerror(2012071202);
end;
end;
procedure thlcgobj.a_opmm_ref_reg(list: TAsmList; Op: TOpCG; size: tdef; const ref: treference; reg: tregister; shuffle: pmmshuffle);
var
hr : tregister;
hs : tmmshuffle;
begin
hr:=getmmregister(list,size);
a_loadmm_ref_reg(list,size,size,ref,hr,shuffle);
if realshuffle(shuffle) then
begin
hs:=shuffle^;
removeshuffles(hs);
a_opmm_reg_reg(list,op,size,hr,reg,@hs);
end
else
a_opmm_reg_reg(list,op,size,hr,reg,shuffle);
end;
procedure thlcgobj.a_opmm_loc_reg(list: TAsmList; Op: TOpCG; size: tdef; const loc: tlocation; reg: tregister; shuffle: pmmshuffle);
begin
case loc.loc of
LOC_CMMREGISTER,LOC_MMREGISTER:
a_opmm_reg_reg(list,op,size,loc.register,reg,shuffle);
LOC_CREFERENCE,LOC_REFERENCE:
a_opmm_ref_reg(list,op,size,loc.reference,reg,shuffle);
else
internalerror(2012071201);
end;
end;
procedure thlcgobj.a_opmm_reg_ref(list: TAsmList; Op: TOpCG; size: tdef; reg: tregister; const ref: treference; shuffle: pmmshuffle);
var
hr : tregister;
hs : tmmshuffle;
begin
hr:=getmmregister(list,size);
a_loadmm_ref_reg(list,size,size,ref,hr,shuffle);
if realshuffle(shuffle) then
begin
hs:=shuffle^;
removeshuffles(hs);
a_opmm_reg_reg(list,op,size,reg,hr,@hs);
a_loadmm_reg_ref(list,size,size,hr,ref,@hs);
end
else
begin
a_opmm_reg_reg(list,op,size,reg,hr,shuffle);
a_loadmm_reg_ref(list,size,size,hr,ref,shuffle);
end;
end;
(*
procedure thlcgobj.a_loadmm_intreg_reg(list: TAsmList; fromsize, tosize: tdef; intreg, mmreg: tregister; shuffle: pmmshuffle);
begin
cg.a_loadmm_intreg_reg(list,def_cgsize(fromsize),def_cgsize(tosize),intreg,mmreg,shuffle);
end;
procedure thlcgobj.a_loadmm_reg_intreg(list: TAsmList; fromsize, tosize: tdef; mmreg, intreg: tregister; shuffle: pmmshuffle);
begin
cg.a_loadmm_reg_intreg(list,def_cgsize(fromsize),def_cgsize(tosize),mmreg,intreg,shuffle);
end;
*)
procedure thlcgobj.a_op_const_ref(list: TAsmList; Op: TOpCG; size: tdef; a: tcgint; const ref: TReference);
var
tmpreg : tregister;
begin
tmpreg:=getintregister(list,size);
a_load_ref_reg(list,size,size,ref,tmpreg);
a_op_const_reg(list,op,size,a,tmpreg);
a_load_reg_ref(list,size,size,tmpreg,ref);
end;
procedure thlcgobj.a_op_const_subsetreg(list: TAsmList; Op: TOpCG; size, subsetsize: tdef; a: tcgint; const sreg: tsubsetregister);
var
tmpreg: tregister;
begin
tmpreg:=getintregister(list,size);
a_load_subsetreg_reg(list,subsetsize,size,sreg,tmpreg);
a_op_const_reg(list,op,size,a,tmpreg);
a_load_reg_subsetreg(list,size,subsetsize,tmpreg,sreg);
end;
procedure thlcgobj.a_op_const_subsetref(list: TAsmList; Op: TOpCG; size, subsetsize: tdef; a: tcgint; const sref: tsubsetreference);
var
tmpreg: tregister;
begin
tmpreg:=getintregister(list,size);
a_load_subsetref_reg(list,subsetsize,size,sref,tmpreg);
a_op_const_reg(list,op,size,a,tmpreg);
a_load_reg_subsetref(list,size,subsetsize,tmpreg,sref);
end;
procedure thlcgobj.a_op_const_loc(list: TAsmList; Op: TOpCG; size: tdef; a: tcgint; const loc: tlocation);
begin
case loc.loc of
LOC_REGISTER, LOC_CREGISTER:
a_op_const_reg(list,op,size,a,loc.register);
LOC_REFERENCE, LOC_CREFERENCE:
a_op_const_ref(list,op,size,a,loc.reference);
LOC_SUBSETREG, LOC_CSUBSETREG:
a_op_const_subsetreg(list,op,size,size,a,loc.sreg);
LOC_SUBSETREF, LOC_CSUBSETREF:
a_op_const_subsetref(list,op,size,size,a,loc.sref);
else
internalerror(2010120428);
end;
end;
procedure thlcgobj.a_op_reg_ref(list: TAsmList; Op: TOpCG; size: tdef; reg: TRegister; const ref: TReference);
var
tmpreg: tregister;
begin
tmpreg:=getintregister(list,size);
a_load_ref_reg(list,size,size,ref,tmpreg);
case op of
OP_NOT,OP_NEG:
begin
a_op_reg_reg(list,op,size,tmpreg,tmpreg);
end;
else
begin
a_op_reg_reg(list,op,size,reg,tmpreg);
end;
end;
a_load_reg_ref(list,size,size,tmpreg,ref);
end;
procedure thlcgobj.a_op_ref_reg(list: TAsmList; Op: TOpCG; size: tdef; const ref: TReference; reg: TRegister);
var
tmpreg: tregister;
begin
case op of
OP_NOT,OP_NEG:
{ handle it as "load ref,reg; op reg" }
begin
a_load_ref_reg(list,size,size,ref,reg);
a_op_reg_reg(list,op,size,reg,reg);
end;
else
begin
tmpreg:=getintregister(list,size);
a_load_ref_reg(list,size,size,ref,tmpreg);
a_op_reg_reg(list,op,size,tmpreg,reg);
end;
end;
end;
procedure thlcgobj.a_op_reg_subsetreg(list: TAsmList; Op: TOpCG; opsize, destsubsetsize: tdef; reg: TRegister; const sreg: tsubsetregister);
var
tmpreg: tregister;
begin
tmpreg:=getintregister(list,opsize);
a_load_subsetreg_reg(list,destsubsetsize,opsize,sreg,tmpreg);
a_op_reg_reg(list,op,opsize,reg,tmpreg);
a_load_reg_subsetreg(list,opsize,destsubsetsize,tmpreg,sreg);
end;
procedure thlcgobj.a_op_reg_subsetref(list: TAsmList; Op: TOpCG; opsize, destsubsetsize: tdef; reg: TRegister; const sref: tsubsetreference);
var
tmpreg: tregister;
begin
tmpreg:=getintregister(list,opsize);
a_load_subsetref_reg(list,destsubsetsize,opsize,sref,tmpreg);
a_op_reg_reg(list,op,opsize,reg,tmpreg);
a_load_reg_subsetref(list,opsize,destsubsetsize,tmpreg,sref);
end;
procedure thlcgobj.a_op_reg_loc(list: TAsmList; Op: TOpCG; size: tdef; reg: tregister; const loc: tlocation);
begin
case loc.loc of
LOC_REGISTER, LOC_CREGISTER:
a_op_reg_reg(list,op,size,reg,loc.register);
LOC_REFERENCE, LOC_CREFERENCE:
a_op_reg_ref(list,op,size,reg,loc.reference);
LOC_SUBSETREG, LOC_CSUBSETREG:
a_op_reg_subsetreg(list,op,size,size,reg,loc.sreg);
LOC_SUBSETREF, LOC_CSUBSETREF:
a_op_reg_subsetref(list,op,size,size,reg,loc.sref);
else
internalerror(2010120429);
end;
end;
procedure thlcgobj.a_op_ref_loc(list: TAsmList; Op: TOpCG; size: tdef; const ref: TReference; const loc: tlocation);
var
tmpreg: tregister;
begin
case loc.loc of
LOC_REGISTER,LOC_CREGISTER:
a_op_ref_reg(list,op,size,ref,loc.register);
LOC_REFERENCE,LOC_CREFERENCE:
begin
tmpreg:=getintregister(list,size);
a_load_ref_reg(list,size,size,ref,tmpreg);
a_op_reg_ref(list,op,size,tmpreg,loc.reference);
end;
LOC_SUBSETREG, LOC_CSUBSETREG:
begin
tmpreg:=getintregister(list,size);
a_load_subsetreg_reg(list,size,size,loc.sreg,tmpreg);
a_op_ref_reg(list,op,size,ref,tmpreg);
a_load_reg_subsetreg(list,size,size,tmpreg,loc.sreg);
end;
LOC_SUBSETREF, LOC_CSUBSETREF:
begin
tmpreg:=getintregister(list,size);
a_load_subsetref_reg(list,size,size,loc.sref,tmpreg);
a_op_ref_reg(list,op,size,ref,tmpreg);
a_load_reg_subsetref(list,size,size,tmpreg,loc.sref);
end;
else
internalerror(2010120429);
end;
end;
procedure thlcgobj.a_op_const_reg_reg(list: TAsmList; op: TOpCg; size: tdef; a: tcgint; src, dst: tregister);
begin
a_load_reg_reg(list,size,size,src,dst);
a_op_const_reg(list,op,size,a,dst);
end;
procedure thlcgobj.a_op_reg_reg_reg(list: TAsmList; op: TOpCg; size: tdef; src1, src2, dst: tregister);
var
tmpreg: tregister;
begin
if (dst<>src1) then
begin
a_load_reg_reg(list,size,size,src2,dst);
a_op_reg_reg(list,op,size,src1,dst);
end
else
begin
{ can we do a direct operation on the target register ? }
if op in [OP_ADD,OP_MUL,OP_AND,OP_MOVE,OP_XOR,OP_IMUL,OP_OR] then
a_op_reg_reg(list,op,size,src2,dst)
else
begin
tmpreg:=getintregister(list,size);
a_load_reg_reg(list,size,size,src2,tmpreg);
a_op_reg_reg(list,op,size,src1,tmpreg);
a_load_reg_reg(list,size,size,tmpreg,dst);
end;
end;
end;
procedure thlcgobj.a_op_const_reg_reg_checkoverflow(list: TAsmList; op: TOpCg; size: tdef; a: tcgint; src, dst: tregister; setflags: boolean; var ovloc: tlocation);
begin
ovloc.loc:=LOC_VOID;
if not setflags then
a_op_const_reg_reg(list,op,size,a,src,dst)
else
internalerror(2010122910);
end;
procedure thlcgobj.a_op_reg_reg_reg_checkoverflow(list: TAsmList; op: TOpCg; size: tdef; src1, src2, dst: tregister; setflags: boolean; var ovloc: tlocation);
begin
ovloc.loc:=LOC_VOID;
if not setflags then
a_op_reg_reg_reg(list,op,size,src1,src2,dst)
else
internalerror(2010122911);
end;
procedure thlcgobj.a_cmp_const_reg_label(list: TAsmList; size: tdef; cmp_op: topcmp; a: tcgint; reg: tregister; l: tasmlabel);
var
tmpreg: tregister;
begin
tmpreg:=getregisterfordef(list,size);
a_load_const_reg(list,size,a,tmpreg);
a_cmp_reg_reg_label(list,size,cmp_op,tmpreg,reg,l);
end;
procedure thlcgobj.a_cmp_const_ref_label(list: TAsmList; size: tdef; cmp_op: topcmp; a: tcgint; const ref: treference; l: tasmlabel);
var
tmpreg: tregister;
begin
tmpreg:=getregisterfordef(list,size);
a_load_ref_reg(list,size,size,ref,tmpreg);
a_cmp_const_reg_label(list,size,cmp_op,a,tmpreg,l);
end;
procedure thlcgobj.a_cmp_const_loc_label(list: TAsmList; size: tdef; cmp_op: topcmp; a: tcgint; const loc: tlocation; l: tasmlabel);
var
tmpreg: tregister;
begin
case loc.loc of
LOC_REGISTER,LOC_CREGISTER:
a_cmp_const_reg_label(list,size,cmp_op,a,loc.register,l);
LOC_REFERENCE,LOC_CREFERENCE:
a_cmp_const_ref_label(list,size,cmp_op,a,loc.reference,l);
LOC_SUBSETREG, LOC_CSUBSETREG:
begin
tmpreg:=getintregister(list,size);
a_load_subsetreg_reg(list,size,size,loc.sreg,tmpreg);
a_cmp_const_reg_label(list,size,cmp_op,a,tmpreg,l);
end;
LOC_SUBSETREF, LOC_CSUBSETREF:
begin
tmpreg:=getintregister(list,size);
a_load_subsetref_reg(list,size,size,loc.sref,tmpreg);
a_cmp_const_reg_label(list,size,cmp_op,a,tmpreg,l);
end;
else
internalerror(2010120430);
end;
end;
procedure thlcgobj.a_cmp_ref_reg_label(list: TAsmList; size: tdef; cmp_op: topcmp; const ref: treference; reg: tregister; l: tasmlabel);
var
tmpreg: tregister;
begin
tmpreg:=getintregister(list,size);
a_load_ref_reg(list,size,size,ref,tmpreg);
a_cmp_reg_reg_label(list,size,cmp_op,tmpreg,reg,l);
end;
procedure thlcgobj.a_cmp_reg_ref_label(list: TAsmList; size: tdef; cmp_op: topcmp; reg: tregister; const ref: treference; l: tasmlabel);
var
tmpreg: tregister;
begin
tmpreg:=getintregister(list,size);
a_load_ref_reg(list,size,size,ref,tmpreg);
a_cmp_reg_reg_label(list,size,cmp_op,reg,tmpreg,l);
end;
procedure thlcgobj.a_cmp_subsetreg_reg_label(list: TAsmList; fromsubsetsize, cmpsize: tdef; cmp_op: topcmp; const sreg: tsubsetregister; reg: tregister; l: tasmlabel);
var
tmpreg: tregister;
begin
tmpreg:=getintregister(list,cmpsize);
a_load_subsetreg_reg(list,fromsubsetsize,cmpsize,sreg,tmpreg);
a_cmp_reg_reg_label(list,cmpsize,cmp_op,tmpreg,reg,l);
end;
procedure thlcgobj.a_cmp_subsetref_reg_label(list: TAsmList; fromsubsetsize, cmpsize: tdef; cmp_op: topcmp; const sref: tsubsetreference; reg: tregister; l: tasmlabel);
var
tmpreg: tregister;
begin
tmpreg:=getintregister(list,cmpsize);
a_load_subsetref_reg(list,fromsubsetsize,cmpsize,sref,tmpreg);
a_cmp_reg_reg_label(list,cmpsize,cmp_op,tmpreg,reg,l);
end;
procedure thlcgobj.a_cmp_loc_reg_label(list: TAsmList; size: tdef; cmp_op: topcmp; const loc: tlocation; reg: tregister; l: tasmlabel);
begin
case loc.loc of
LOC_REGISTER,
LOC_CREGISTER:
a_cmp_reg_reg_label(list,size,cmp_op,loc.register,reg,l);
LOC_REFERENCE,
LOC_CREFERENCE :
a_cmp_ref_reg_label(list,size,cmp_op,loc.reference,reg,l);
LOC_CONSTANT:
a_cmp_const_reg_label(list,size,cmp_op,loc.value,reg,l);
LOC_SUBSETREG,
LOC_CSUBSETREG:
a_cmp_subsetreg_reg_label(list,size,size,cmp_op,loc.sreg,reg,l);
LOC_SUBSETREF,
LOC_CSUBSETREF:
a_cmp_subsetref_reg_label(list,size,size,cmp_op,loc.sref,reg,l);
else
internalerror(2010120431);
end;
end;
procedure thlcgobj.a_cmp_reg_loc_label(list: TAsmList; size: tdef; cmp_op: topcmp; reg: tregister; const loc: tlocation; l: tasmlabel);
begin
a_cmp_loc_reg_label(list,size,swap_opcmp(cmp_op),loc,reg,l);
end;
procedure thlcgobj.a_cmp_ref_loc_label(list: TAsmList; size: tdef; cmp_op: topcmp; const ref: treference; const loc: tlocation; l: tasmlabel);
var
tmpreg: tregister;
begin
case loc.loc of
LOC_REGISTER,LOC_CREGISTER:
a_cmp_ref_reg_label(list,size,cmp_op,ref,loc.register,l);
LOC_REFERENCE,LOC_CREFERENCE:
begin
tmpreg:=getintregister(list,size);
a_load_ref_reg(list,size,size,loc.reference,tmpreg);
a_cmp_ref_reg_label(list,size,cmp_op,ref,tmpreg,l);
end;
LOC_CONSTANT:
begin
a_cmp_const_ref_label(list,size,swap_opcmp(cmp_op),loc.value,ref,l);
end;
LOC_SUBSETREG, LOC_CSUBSETREG:
begin
tmpreg:=getintregister(list,size);
a_load_ref_reg(list,size,size,loc.reference,tmpreg);
a_cmp_subsetreg_reg_label(list,size,size,swap_opcmp(cmp_op),loc.sreg,tmpreg,l);
end;
LOC_SUBSETREF, LOC_CSUBSETREF:
begin
tmpreg:=getintregister(list,size);
a_load_ref_reg(list,size,size,loc.reference,tmpreg);
a_cmp_subsetref_reg_label(list,size,size,swap_opcmp(cmp_op),loc.sref,tmpreg,l);
end;
else
internalerror(2010120432);
end;
end;
procedure thlcgobj.g_exception_reason_save(list: TAsmList; fromsize, tosize: tdef; reg: tregister; const href: treference);
begin
a_load_reg_ref(list,fromsize,tosize,reg,href);
end;
procedure thlcgobj.g_exception_reason_save_const(list: TAsmList; size: tdef; a: tcgint; const href: treference);
begin
a_load_const_ref(list,size,a,href);
end;
procedure thlcgobj.g_exception_reason_load(list: TAsmList; fromsize, tosize: tdef; const href: treference; reg: tregister);
begin
a_load_ref_reg(list,fromsize,tosize,href,reg);
end;
procedure thlcgobj.g_exception_reason_discard(list: TAsmList; size: tdef; href: treference);
begin
{ do nothing by default }
end;
procedure thlcgobj.g_maybe_testself(list: TAsmList; selftype: tdef; reg: tregister);
var
OKLabel : tasmlabel;
cgpara1 : TCGPara;
pd : tprocdef;
begin
if (cs_check_object in current_settings.localswitches) or
(cs_check_range in current_settings.localswitches) then
begin
pd:=search_system_proc('fpc_handleerror');
current_asmdata.getjumplabel(oklabel);
a_cmp_const_reg_label(list,selftype,OC_NE,0,reg,oklabel);
cgpara1.init;
paramanager.getintparaloc(list,pd,1,cgpara1);
a_load_const_cgpara(list,s32inttype,aint(210),cgpara1);
paramanager.freecgpara(list,cgpara1);
g_call_system_proc(list,pd,[@cgpara1],nil);
cgpara1.done;
a_label(list,oklabel);
end;
end;
procedure thlcgobj.g_concatcopy(list: TAsmList; size: tdef; const source, dest: treference);
begin
if use_vectorfpu(size) then
a_loadmm_ref_ref(list,size,size,source,dest,mms_movescalar)
else if size.typ<>floatdef then
a_load_ref_ref(list,size,size,source,dest)
else
a_loadfpu_ref_ref(list,size,size,source,dest);
end;
procedure thlcgobj.g_concatcopy_unaligned(list: TAsmList; size: tdef; const source, dest: treference);
begin
g_concatcopy(list,size,source,dest);
end;
procedure thlcgobj.g_copyshortstring(list: TAsmList; const source, dest: treference; strdef: tstringdef);
var
cgpara1,cgpara2,cgpara3 : TCGPara;
pd : tprocdef;
begin
pd:=search_system_proc('fpc_shortstr_to_shortstr');
cgpara1.init;
cgpara2.init;
cgpara3.init;
paramanager.getintparaloc(list,pd,1,cgpara1);
paramanager.getintparaloc(list,pd,2,cgpara2);
paramanager.getintparaloc(list,pd,3,cgpara3);
if pd.is_pushleftright then
begin
a_loadaddr_ref_cgpara(list,strdef,dest,cgpara1);
a_load_const_cgpara(list,s32inttype,strdef.len,cgpara2);
a_loadaddr_ref_cgpara(list,strdef,source,cgpara3);
end
else
begin
a_loadaddr_ref_cgpara(list,strdef,source,cgpara3);
a_load_const_cgpara(list,s32inttype,strdef.len,cgpara2);
a_loadaddr_ref_cgpara(list,strdef,dest,cgpara1);
end;
paramanager.freecgpara(list,cgpara3);
paramanager.freecgpara(list,cgpara2);
paramanager.freecgpara(list,cgpara1);
g_call_system_proc(list,pd,[@cgpara1,@cgpara2,@cgpara3],nil);
cgpara3.done;
cgpara2.done;
cgpara1.done;
end;
procedure thlcgobj.g_copyvariant(list: TAsmList; const source, dest: treference; vardef: tvariantdef);
var
cgpara1,cgpara2 : TCGPara;
pd : tprocdef;
begin
pd:=search_system_proc('fpc_variant_copy_overwrite');
cgpara1.init;
cgpara2.init;
paramanager.getintparaloc(list,pd,1,cgpara1);
paramanager.getintparaloc(list,pd,2,cgpara2);
if pd.is_pushleftright then
begin
a_loadaddr_ref_cgpara(list,vardef,source,cgpara1);
a_loadaddr_ref_cgpara(list,vardef,dest,cgpara2);
end
else
begin
a_loadaddr_ref_cgpara(list,vardef,dest,cgpara2);
a_loadaddr_ref_cgpara(list,vardef,source,cgpara1);
end;
paramanager.freecgpara(list,cgpara2);
paramanager.freecgpara(list,cgpara1);
g_call_system_proc(list,pd,[@cgpara1,@cgpara2],nil);
cgpara2.done;
cgpara1.done;
end;
procedure thlcgobj.g_incrrefcount(list: TAsmList; t: tdef; const ref: treference);
var
href : treference;
incrfunc : string;
cgpara1,cgpara2 : TCGPara;
pd : tprocdef;
begin
cgpara1.init;
cgpara2.init;
if is_interfacecom_or_dispinterface(t) then
incrfunc:='fpc_intf_incr_ref'
else if is_ansistring(t) then
incrfunc:='fpc_ansistr_incr_ref'
else if is_widestring(t) then
incrfunc:='fpc_widestr_incr_ref'
else if is_unicodestring(t) then
incrfunc:='fpc_unicodestr_incr_ref'
else if is_dynamic_array(t) then
incrfunc:='fpc_dynarray_incr_ref'
else
incrfunc:='';
{ call the special incr function or the generic addref }
if incrfunc<>'' then
begin
pd:=search_system_proc(incrfunc);
paramanager.getintparaloc(list,pd,1,cgpara1);
{ widestrings aren't ref. counted on all platforms so we need the address
to create a real copy }
if is_widestring(t) then
a_loadaddr_ref_cgpara(list,t,ref,cgpara1)
else
{ these functions get the pointer by value }
a_load_ref_cgpara(list,t,ref,cgpara1);
paramanager.freecgpara(list,cgpara1);
g_call_system_proc(list,pd,[@cgpara1],nil);
end
else
begin
pd:=search_system_proc('fpc_addref');
paramanager.getintparaloc(list,pd,1,cgpara1);
paramanager.getintparaloc(list,pd,2,cgpara2);
if is_open_array(t) then
InternalError(201103054);
reference_reset_symbol(href,RTTIWriter.get_rtti_label(t,initrtti,def_needs_indirect(t)),0,sizeof(pint),[]);
if pd.is_pushleftright then
begin
a_loadaddr_ref_cgpara(list,t,ref,cgpara1);
a_loadaddr_ref_cgpara(list,voidpointertype,href,cgpara2);
end
else
begin
a_loadaddr_ref_cgpara(list,voidpointertype,href,cgpara2);
a_loadaddr_ref_cgpara(list,t,ref,cgpara1);
end;
paramanager.freecgpara(list,cgpara1);
paramanager.freecgpara(list,cgpara2);
g_call_system_proc(list,pd,[@cgpara1,@cgpara2],nil);
end;
cgpara2.done;
cgpara1.done;
end;
procedure thlcgobj.g_initialize(list: TAsmList; t: tdef; const ref: treference);
var
href : treference;
cgpara1,cgpara2 : TCGPara;
pd : tprocdef;
begin
cgpara1.init;
cgpara2.init;
if is_ansistring(t) or
is_widestring(t) or
is_unicodestring(t) or
is_interfacecom_or_dispinterface(t) or
is_dynamic_array(t) then
a_load_const_ref(list,t,0,ref)
else if t.typ=variantdef then
begin
pd:=search_system_proc('fpc_variant_init');
paramanager.getintparaloc(list,pd,1,cgpara1);
a_loadaddr_ref_cgpara(list,t,ref,cgpara1);
paramanager.freecgpara(list,cgpara1);
g_call_system_proc(list,pd,[@cgpara1],nil);
end
else
begin
if is_open_array(t) then
InternalError(201103052);
pd:=search_system_proc('fpc_initialize');
paramanager.getintparaloc(list,pd,1,cgpara1);
paramanager.getintparaloc(list,pd,2,cgpara2);
reference_reset_symbol(href,RTTIWriter.get_rtti_label(t,initrtti,def_needs_indirect(t)),0,sizeof(pint),[]);
if pd.is_pushleftright then
begin
a_loadaddr_ref_cgpara(list,t,ref,cgpara1);
a_loadaddr_ref_cgpara(list,voidpointertype,href,cgpara2);
end
else
begin
a_loadaddr_ref_cgpara(list,voidpointertype,href,cgpara2);
a_loadaddr_ref_cgpara(list,t,ref,cgpara1);
end;
paramanager.freecgpara(list,cgpara1);
paramanager.freecgpara(list,cgpara2);
g_call_system_proc(list,pd,[@cgpara1,@cgpara2],nil);
end;
cgpara1.done;
cgpara2.done;
end;
procedure thlcgobj.g_finalize(list: TAsmList; t: tdef; const ref: treference);
var
href : treference;
cgpara1,cgpara2 : TCGPara;
pd : tprocdef;
decrfunc : string;
begin
if is_interfacecom_or_dispinterface(t) then
decrfunc:='fpc_intf_decr_ref'
else if is_ansistring(t) then
decrfunc:='fpc_ansistr_decr_ref'
else if is_widestring(t) then
decrfunc:='fpc_widestr_decr_ref'
else if is_unicodestring(t) then
decrfunc:='fpc_unicodestr_decr_ref'
else if t.typ=variantdef then
decrfunc:='fpc_variant_clear'
else
begin
cgpara1.init;
cgpara2.init;
if is_open_array(t) then
InternalError(201103051);
{ fpc_finalize takes a pointer value parameter, fpc_dynarray_clear a
pointer var parameter }
if is_dynamic_array(t) then
pd:=search_system_proc('fpc_dynarray_clear')
else
pd:=search_system_proc('fpc_finalize');
paramanager.getintparaloc(list,pd,1,cgpara1);
paramanager.getintparaloc(list,pd,2,cgpara2);
reference_reset_symbol(href,RTTIWriter.get_rtti_label(t,initrtti,def_needs_indirect(t)),0,sizeof(pint),[]);
if pd.is_pushleftright then
begin
a_loadaddr_ref_cgpara(list,t,ref,cgpara1);
a_loadaddr_ref_cgpara(list,voidpointertype,href,cgpara2);
end
else
begin
a_loadaddr_ref_cgpara(list,voidpointertype,href,cgpara2);
a_loadaddr_ref_cgpara(list,t,ref,cgpara1);
end;
paramanager.freecgpara(list,cgpara1);
paramanager.freecgpara(list,cgpara2);
g_call_system_proc(list,pd,[@cgpara1,@cgpara2],nil);
cgpara1.done;
cgpara2.done;
exit;
end;
pd:=search_system_proc(decrfunc);
cgpara1.init;
paramanager.getintparaloc(list,pd,1,cgpara1);
a_loadaddr_ref_cgpara(list,t,ref,cgpara1);
paramanager.freecgpara(list,cgpara1);
g_call_system_proc(list,pd,[@cgpara1],nil);
cgpara1.done;
end;
procedure thlcgobj.g_array_rtti_helper(list: TAsmList; t: tdef; const ref: treference; const highloc: tlocation; const name: string);
var
cgpara1,cgpara2,cgpara3: TCGPara;
href: TReference;
hreg, lenreg: TRegister;
pd: tprocdef;
begin
cgpara1.init;
cgpara2.init;
cgpara3.init;
pd:=search_system_proc(name);
paramanager.getintparaloc(list,pd,1,cgpara1);
paramanager.getintparaloc(list,pd,2,cgpara2);
paramanager.getintparaloc(list,pd,3,cgpara3);
reference_reset_symbol(href,RTTIWriter.get_rtti_label(t,initrtti,def_needs_indirect(t)),0,sizeof(pint),[]);
{ if calling convention is left to right, push parameters 1 and 2 }
if pd.is_pushleftright then
begin
a_loadaddr_ref_cgpara(list,t,ref,cgpara1);
a_loadaddr_ref_cgpara(list,voidpointertype,href,cgpara2);
end;
{ push parameter 3 }
if highloc.loc=LOC_CONSTANT then
a_load_const_cgpara(list,sizesinttype,highloc.value+1,cgpara3)
else
begin
if highloc.loc in [LOC_REGISTER,LOC_CREGISTER] then
hreg:=highloc.register
else
begin
hreg:=getintregister(list,sizesinttype);
a_load_loc_reg(list,sizesinttype,sizesinttype,highloc,hreg);
end;
{ increment, converts high(x) to length(x) }
lenreg:=getintregister(list,sizesinttype);
a_op_const_reg_reg(list,OP_ADD,sizesinttype,1,hreg,lenreg);
a_load_reg_cgpara(list,sizesinttype,lenreg,cgpara3);
end;
{ if calling convention is right to left, push parameters 2 and 1 }
if not pd.is_pushleftright then
begin
a_loadaddr_ref_cgpara(list,voidpointertype,href,cgpara2);
a_loadaddr_ref_cgpara(list,t,ref,cgpara1);
end;
paramanager.freecgpara(list,cgpara1);
paramanager.freecgpara(list,cgpara2);
paramanager.freecgpara(list,cgpara3);
g_call_system_proc(list,pd,[@cgpara1,@cgpara2,@cgpara3],nil);
cgpara3.done;
cgpara2.done;
cgpara1.done;
end;
function thlcgobj.def_needs_indirect(t:tdef):boolean;
begin
result:=(tf_supports_packages in target_info.flags) and
(target_info.system in systems_indirect_var_imports) and
(cs_imported_data in current_settings.localswitches) and
(findunitsymtable(t.owner).moduleid<>current_module.moduleid);
end;
procedure thlcgobj.g_rangecheck(list: TAsmList; const l: tlocation; fromdef, todef: tdef);
var
{$if defined(cpu64bitalu) or defined(cpu32bitalu)}
aintmax: aint;
{$else}
aintmax: longint;
{$endif}
neglabel : tasmlabel;
hreg : tregister;
lto,hto,
lfrom,hfrom : TConstExprInt;
fromsize, tosize: cardinal;
maxdef: tdef;
from_signed, to_signed: boolean;
begin
{ range checking on and range checkable value? }
if not(cs_check_range in current_settings.localswitches) or
not(fromdef.typ in [orddef,enumdef]) or
{ C-style booleans can't really fail range checks, }
{ all values are always valid }
is_cbool(todef) then
exit;
{$if not defined(cpuhighleveltarget) and not defined(cpu64bitalu)}
{ handle 64bit rangechecks separate for 32bit processors }
if is_64bit(fromdef) or is_64bit(todef) then
begin
cg64.g_rangecheck64(list,l,fromdef,todef);
exit;
end;
{$endif ndef cpuhighleveltarget and ndef cpu64bitalu}
{ only check when assigning to scalar, subranges are different, }
{ when todef=fromdef then the check is always generated }
getrange(fromdef,lfrom,hfrom);
getrange(todef,lto,hto);
from_signed := is_signed(fromdef);
to_signed := is_signed(todef);
{ check the rangedef of the array, not the array itself }
{ (only change now, since getrange needs the arraydef) }
if (todef.typ = arraydef) then
todef := tarraydef(todef).rangedef;
{ no range check if from and to are equal and are both longint/dword }
{ (if we have a 32bit processor) or int64/qword, since such }
{ operations can at most cause overflows (JM) }
{ Note that these checks are mostly processor independent, they only }
{ have to be changed once we introduce 64bit subrange types }
{$if defined(cpuhighleveltarget) or defined(cpu64bitalu)}
if (fromdef=todef) and
(fromdef.typ=orddef) and
(((((torddef(fromdef).ordtype=s64bit) and
(lfrom = low(int64)) and
(hfrom = high(int64))) or
((torddef(fromdef).ordtype=u64bit) and
(lfrom = low(qword)) and
(hfrom = high(qword))) or
((torddef(fromdef).ordtype=scurrency) and
(lfrom = low(int64)) and
(hfrom = high(int64)))))) then
exit;
{$endif cpuhighleveltarget or cpu64bitalu}
{ 32 bit operations are automatically widened to 64 bit on 64 bit addr
targets }
{$ifdef cpu32bitaddr}
if (fromdef = todef) and
(fromdef.typ=orddef) and
(((((torddef(fromdef).ordtype = s32bit) and
(lfrom = int64(low(longint))) and
(hfrom = int64(high(longint)))) or
((torddef(fromdef).ordtype = u32bit) and
(lfrom = low(cardinal)) and
(hfrom = high(cardinal)))))) then
exit;
{$endif cpu32bitaddr}
{ optimize some range checks away in safe cases }
fromsize := fromdef.size;
tosize := todef.size;
if ((from_signed = to_signed) or
(not from_signed)) and
(lto<=lfrom) and (hto>=hfrom) and
(fromsize <= tosize) then
begin
{ if fromsize < tosize, and both have the same signed-ness or }
{ fromdef is unsigned, then all bit patterns from fromdef are }
{ valid for todef as well }
if (fromsize < tosize) then
exit;
if (fromsize = tosize) and
(from_signed = to_signed) then
{ only optimize away if all bit patterns which fit in fromsize }
{ are valid for the todef }
begin
{$ifopt Q+}
{$define overflowon}
{$Q-}
{$endif}
{$ifopt R+}
{$define rangeon}
{$R-}
{$endif}
if to_signed then
begin
{ calculation of the low/high ranges must not overflow 64 bit
otherwise we end up comparing with zero for 64 bit data types on
64 bit processors }
if (lto = (int64(-1) << (tosize * 8 - 1))) and
(hto = (-((int64(-1) << (tosize * 8 - 1))+1))) then
exit
end
else
begin
{ calculation of the low/high ranges must not overflow 64 bit
otherwise we end up having all zeros for 64 bit data types on
64 bit processors }
if (lto = 0) and
(qword(hto) = (qword(-1) >> (64-(tosize * 8))) ) then
exit
end;
{$ifdef overflowon}
{$Q+}
{$undef overflowon}
{$endif}
{$ifdef rangeon}
{$R+}
{$undef rangeon}
{$endif}
end
end;
{ depending on the types involved, we perform the range check for 64 or
for 32 bit }
if fromsize=8 then
maxdef:=fromdef
else
maxdef:=todef;
{$if sizeof(aintmax) = 8}
if maxdef.size=8 then
aintmax:=high(int64)
else
{$endif}
begin
aintmax:=high(longint);
maxdef:=u32inttype;
end;
{ generate the rangecheck code for the def where we are going to }
{ store the result }
{ use the trick that }
{ a <= x <= b <=> 0 <= x-a <= b-a <=> unsigned(x-a) <= unsigned(b-a) }
{ To be able to do that, we have to make sure however that either }
{ fromdef and todef are both signed or unsigned, or that we leave }
{ the parts < 0 and > maxlongint out }
if from_signed xor to_signed then
begin
if from_signed then
{ from is signed, to is unsigned }
begin
{ if high(from) < 0 -> always range error }
if (hfrom < 0) or
{ if low(to) > maxlongint also range error }
(lto > aintmax) then
begin
g_call_system_proc(list,'fpc_rangeerror',[],nil);
exit
end;
{ from is signed and to is unsigned -> when looking at to }
{ as an signed value, it must be < maxaint (otherwise }
{ it will become negative, which is invalid since "to" is unsigned) }
if hto > aintmax then
hto := aintmax;
end
else
{ from is unsigned, to is signed }
begin
if (lfrom > aintmax) or
(hto < 0) then
begin
g_call_system_proc(list,'fpc_rangeerror',[],nil);
exit
end;
{ from is unsigned and to is signed -> when looking at to }
{ as an unsigned value, it must be >= 0 (since negative }
{ values are the same as values > maxlongint) }
if lto < 0 then
lto := 0;
end;
end;
hreg:=getintregister(list,maxdef);
a_load_loc_reg(list,fromdef,maxdef,l,hreg);
a_op_const_reg(list,OP_SUB,maxdef,tcgint(int64(lto)),hreg);
current_asmdata.getjumplabel(neglabel);
{
if from_signed then
a_cmp_const_reg_label(list,OS_INT,OC_GTE,aint(hto-lto),hreg,neglabel)
else
}
if qword(hto-lto)>qword(aintmax) then
a_cmp_const_reg_label(list,maxdef,OC_BE,aintmax,hreg,neglabel)
else
a_cmp_const_reg_label(list,maxdef,OC_BE,tcgint(int64(hto-lto)),hreg,neglabel);
g_call_system_proc(list,'fpc_rangeerror',[],nil);
a_label(list,neglabel);
end;
procedure thlcgobj.g_copyvaluepara_openarray(list: TAsmList; const ref: treference; const lenloc: tlocation; arrdef: tarraydef; destreg: tregister);
var
sizereg,sourcereg,lenreg : tregister;
cgpara1,cgpara2,cgpara3 : TCGPara;
ptrarrdef : tdef;
pd : tprocdef;
getmemres : tcgpara;
destloc : tlocation;
begin
{ because some abis don't support dynamic stack allocation properly
open array value parameters are copied onto the heap
}
include(current_procinfo.flags, pi_has_open_array_parameter);
{ calculate necessary memory }
{ read/write operations on one register make the life of the register allocator hard }
if not(lenloc.loc in [LOC_REGISTER,LOC_CREGISTER]) then
begin
lenreg:=getintregister(list,sinttype);
a_load_loc_reg(list,sinttype,sinttype,lenloc,lenreg);
end
else
lenreg:=lenloc.register;
sizereg:=getintregister(list,sinttype);
a_op_const_reg_reg(list,OP_ADD,sinttype,1,lenreg,sizereg);
a_op_const_reg(list,OP_IMUL,sinttype,arrdef.elesize,sizereg);
{ load source }
ptrarrdef:=cpointerdef.getreusable(arrdef);
sourcereg:=getaddressregister(list,ptrarrdef);
a_loadaddr_ref_reg(list,arrdef,ptrarrdef,ref,sourcereg);
{ do getmem call }
pd:=search_system_proc('fpc_getmem');
cgpara1.init;
paramanager.getintparaloc(list,pd,1,cgpara1);
a_load_reg_cgpara(list,sinttype,sizereg,cgpara1);
paramanager.freecgpara(list,cgpara1);
getmemres:=g_call_system_proc(list,pd,[@cgpara1],ptrarrdef);
cgpara1.done;
{ return the new address }
location_reset(destloc,LOC_REGISTER,OS_ADDR);
destloc.register:=destreg;
gen_load_cgpara_loc(list,ptrarrdef,getmemres,destloc,false);
{ do move call }
pd:=search_system_proc('MOVE');
cgpara1.init;
cgpara2.init;
cgpara3.init;
paramanager.getintparaloc(list,pd,1,cgpara1);
paramanager.getintparaloc(list,pd,2,cgpara2);
paramanager.getintparaloc(list,pd,3,cgpara3);
if pd.is_pushleftright then
begin
{ load source }
a_load_reg_cgpara(list,ptrarrdef,sourcereg,cgpara1);
{ load destination }
a_load_reg_cgpara(list,ptrarrdef,destreg,cgpara2);
{ load size }
a_load_reg_cgpara(list,sizesinttype,sizereg,cgpara3);
end
else
begin
{ load size }
a_load_reg_cgpara(list,sizesinttype,sizereg,cgpara3);
{ load destination }
a_load_reg_cgpara(list,ptrarrdef,destreg,cgpara2);
{ load source }
a_load_reg_cgpara(list,ptrarrdef,sourcereg,cgpara1);
end;
paramanager.freecgpara(list,cgpara3);
paramanager.freecgpara(list,cgpara2);
paramanager.freecgpara(list,cgpara1);
g_call_system_proc(list,pd,[@cgpara1,@cgpara2,@cgpara3],nil);
cgpara3.done;
cgpara2.done;
cgpara1.done;
getmemres.resetiftemp;
end;
procedure thlcgobj.g_releasevaluepara_openarray(list: TAsmList; arrdef: tarraydef; const l: tlocation);
var
cgpara1 : TCGPara;
pd : tprocdef;
begin
{ do freemem call }
pd:=search_system_proc('fpc_freemem');
cgpara1.init;
paramanager.getintparaloc(list,pd,1,cgpara1);
{ load source }
a_load_loc_cgpara(list,cpointerdef.getreusable(arrdef),l,cgpara1);
paramanager.freecgpara(list,cgpara1);
g_call_system_proc(list,pd,[@cgpara1],nil);
cgpara1.done;
end;
procedure thlcgobj.g_profilecode(list: TAsmList);
begin
end;
procedure thlcgobj.a_jmp_external_name(list: TAsmList; const externalname: TSymStr);
begin
cg.a_jmp_name(list,externalname);
end;
procedure thlcgobj.g_external_wrapper(list: TAsmList; procdef: tprocdef; const wrappername, externalname: string; global: boolean);
var
sym: tasmsymbol;
begin
maybe_new_object_file(list);
new_section(list,sec_code,wrappername,target_info.alignment.procalign);
if global then
begin
sym:=current_asmdata.DefineAsmSymbol(wrappername,AB_GLOBAL,AT_FUNCTION,procdef);
list.concat(Tai_symbol.Create_global(sym,0));
end
else
begin
sym:=current_asmdata.DefineAsmSymbol(wrappername,AB_LOCAL,AT_FUNCTION,procdef);
list.concat(Tai_symbol.Create(sym,0));
end;
a_jmp_external_name(list,externalname);
list.concat(Tai_symbol_end.Create(sym));
end;
procedure thlcgobj.g_allocload_reg_reg(list: TAsmList; regsize: tdef; const fromreg: tregister; out toreg: tregister; regtyp: tregistertype);
begin
case regtyp of
R_INTREGISTER:
toreg:=getintregister(list,regsize);
R_ADDRESSREGISTER:
toreg:=getaddressregister(list,regsize);
R_FPUREGISTER:
toreg:=getfpuregister(list,regsize);
else
internalerror(2013112910);
end;
a_load_reg_reg(list,regsize,regsize,fromreg,toreg);
end;
procedure thlcgobj.g_reference_loc(list: TAsmList; def: tdef; const fromloc: tlocation; out toloc: tlocation);
procedure handle_reg_move(regsize: tdef; const fromreg: tregister; out toreg: tregister; regtyp: tregistertype);
begin
case regtyp of
R_INTREGISTER:
toreg:=getintregister(list,regsize);
R_ADDRESSREGISTER:
toreg:=getaddressregister(list,regsize);
R_FPUREGISTER:
toreg:=getfpuregister(list,regsize);
else
internalerror(2013112915);
end;
a_load_reg_reg(list,regsize,regsize,fromreg,toreg);
end;
begin
toloc:=fromloc;
case fromloc.loc of
{ volatile location, can't get a permanent reference }
LOC_REGISTER,
LOC_FPUREGISTER:
internalerror(2012012702);
LOC_CONSTANT:
{ finished }
;
LOC_CREGISTER:
handle_reg_move(def,fromloc.reference.index,toloc.reference.index,R_INTREGISTER);
LOC_CFPUREGISTER:
handle_reg_move(def,fromloc.reference.index,toloc.reference.index,R_FPUREGISTER);
{ although LOC_CREFERENCE cannot be an lvalue, we may want to take a
reference to such a location for multiple reading }
LOC_CREFERENCE,
LOC_REFERENCE:
begin
if (fromloc.reference.base<>NR_NO) and
(fromloc.reference.base<>current_procinfo.framepointer) and
(fromloc.reference.base<>NR_STACK_POINTER_REG) then
handle_reg_move(voidpointertype,fromloc.reference.base,toloc.reference.base,getregtype(fromloc.reference.base));
if (fromloc.reference.index<>NR_NO) and
(fromloc.reference.index<>current_procinfo.framepointer) and
(fromloc.reference.index<>NR_STACK_POINTER_REG) then
handle_reg_move(voidpointertype,fromloc.reference.index,toloc.reference.index,getregtype(fromloc.reference.index));
end;
else
internalerror(2012012701);
end;
end;
procedure thlcgobj.g_ptrtypecast_reg(list: TAsmList; fromdef, todef: tdef; var reg: tregister);
begin
{ nothing to do }
end;
procedure thlcgobj.g_ptrtypecast_ref(list: TAsmList; fromdef, todef: tdef; var ref: treference);
begin
{ nothing to do }
end;
procedure thlcgobj.g_set_addr_nonbitpacked_field_ref(list: TAsmList; recdef: tabstractrecorddef; field: tfieldvarsym; var recref: treference);
begin
inc(recref.offset,field.fieldoffset);
recref.alignment:=newalignment(recref.alignment,field.fieldoffset);
end;
procedure thlcgobj.g_setup_load_field_by_name(list: TAsmList; recdef: trecorddef; const name: TIDString; const recref: treference; out fref: treference; out fielddef: tdef);
var
sym: tsym;
field: tfieldvarsym;
begin
sym:=search_struct_member(recdef,name);
if not assigned(sym) or
(sym.typ<>fieldvarsym) then
internalerror(2015111901);
field:=tfieldvarsym(sym);
fref:=recref;
fielddef:=field.vardef;
g_set_addr_nonbitpacked_field_ref(list,recdef,field,fref);
end;
procedure thlcgobj.g_load_reg_field_by_name(list: TAsmList; regsize: tdef; recdef: trecorddef; reg: tregister; const name: TIDString; const recref: treference);
var
fref: treference;
fielddef: tdef;
begin
g_setup_load_field_by_name(list,recdef,name,recref,fref,fielddef);
a_load_reg_ref(list,regsize,fielddef,reg,fref);
end;
procedure thlcgobj.g_load_const_field_by_name(list: TAsmList; recdef: trecorddef; a: tcgint; const name: TIDString; const recref: treference);
var
fref: treference;
fielddef: tdef;
begin
g_setup_load_field_by_name(list,recdef,name,recref,fref,fielddef);
a_load_const_ref(list,fielddef,a,fref);
end;
procedure thlcgobj.g_load_field_reg_by_name(list: TAsmList; recdef: trecorddef; regsize: tdef; const name: TIDString; const recref: treference; reg: tregister);
var
fref: treference;
fielddef: tdef;
begin
g_setup_load_field_by_name(list,recdef,name,recref,fref,fielddef);
a_load_ref_reg(list,fielddef,regsize,fref,reg);
end;
procedure thlcgobj.g_force_field_reg_by_name(list: TAsmList; recdef: trecorddef; const name: TIDString; const recref: treference; out regdef: tdef; out reg: tregister);
var
fref: treference;
begin
g_setup_load_field_by_name(list,recdef,name,recref,fref,regdef);
reg:=getregisterfordef(list,regdef);
a_load_ref_reg(list,regdef,regdef,fref,reg);
end;
procedure thlcgobj.location_force_reg(list: TAsmList; var l: tlocation; src_size, dst_size: tdef; maybeconst: boolean);
var
hregister,
hregister2: tregister;
hl : tasmlabel;
oldloc : tlocation;
begin
oldloc:=l;
hregister:=getregisterfordef(list,dst_size);
{ load value in new register }
case l.loc of
{$ifdef cpuflags}
LOC_FLAGS :
begin
g_flags2reg(list,dst_size,l.resflags,hregister);
cg.a_reg_dealloc(list,NR_DEFAULTFLAGS);
end;
{$endif cpuflags}
LOC_JUMP :
begin
a_label(list,l.truelabel);
if is_cbool(src_size) then
a_load_const_reg(list,dst_size,-1,hregister)
else
a_load_const_reg(list,dst_size,1,hregister);
current_asmdata.getjumplabel(hl);
a_jmp_always(list,hl);
a_label(list,l.falselabel);
a_load_const_reg(list,dst_size,0,hregister);
a_label(list,hl);
end;
else
begin
{ load_loc_reg can only handle size >= l.size, when the
new size is smaller then we need to adjust the size
of the orignal and maybe recalculate l.register for i386 }
if (dst_size.size<src_size.size) then
begin
hregister2:=getregisterfordef(list,src_size);
{ prevent problems with memory locations -- at this high
level we cannot twiddle with the reference offset, since
that may not mean anything (e.g., it refers to fixed-sized
stack slots on Java) }
a_load_loc_reg(list,src_size,src_size,l,hregister2);
a_load_reg_reg(list,src_size,dst_size,hregister2,hregister);
end
else
a_load_loc_reg(list,src_size,dst_size,l,hregister);
end;
end;
if (l.loc <> LOC_CREGISTER) or
not maybeconst then
location_reset(l,LOC_REGISTER,def_cgsize(dst_size))
else
location_reset(l,LOC_CREGISTER,def_cgsize(dst_size));
l.register:=hregister;
{ Release temp if it was a reference }
if oldloc.loc=LOC_REFERENCE then
location_freetemp(list,oldloc);
end;
procedure thlcgobj.location_force_fpureg(list: TAsmList; var l: tlocation; size: tdef; maybeconst: boolean);
var
reg : tregister;
begin
if (l.loc<>LOC_FPUREGISTER) and
((l.loc<>LOC_CFPUREGISTER) or (not maybeconst)) then
begin
{ if it's in an mm register, store to memory first }
if (l.loc in [LOC_MMREGISTER,LOC_CMMREGISTER]) then
location_force_mem(list,l,size);
reg:=getfpuregister(list,size);
a_loadfpu_loc_reg(list,size,size,l,reg);
location_freetemp(list,l);
location_reset(l,LOC_FPUREGISTER,l.size);
l.register:=reg;
end;
end;
procedure thlcgobj.location_force_mem(list: TAsmList; var l: tlocation; size: tdef);
var
r : treference;
forcesize: aint;
begin
case l.loc of
LOC_FPUREGISTER,
LOC_CFPUREGISTER :
begin
tg.gethltemp(list,size,size.size,tt_normal,r);
a_loadfpu_reg_ref(list,size,size,l.register,r);
location_reset_ref(l,LOC_REFERENCE,l.size,size.alignment,[]);
l.reference:=r;
end;
LOC_MMREGISTER,
LOC_CMMREGISTER:
begin
{ vectors can't be represented yet using tdef }
if size.typ<>floatdef then
internalerror(2012062301);
tg.gethltemp(list,size,size.size,tt_normal,r);
a_loadmm_reg_ref(list,size,size,l.register,r,mms_movescalar);
location_reset_ref(l,LOC_REFERENCE,l.size,size.alignment,[]);
l.reference:=r;
end;
LOC_CONSTANT,
LOC_REGISTER,
LOC_CREGISTER,
LOC_SUBSETREG,
LOC_CSUBSETREG,
LOC_SUBSETREF,
LOC_CSUBSETREF:
begin
if not is_dynamic_array(size) and
not is_open_array(size) then
forcesize:=size.size
else
forcesize:=sizeof(pint);
tg.gethltemp(list,size,forcesize,tt_normal,r);
a_load_loc_ref(list,size,size,l,r);
location_reset_ref(l,LOC_REFERENCE,l.size,size.alignment,[]);
l.reference:=r;
end;
LOC_CREFERENCE,
LOC_REFERENCE : ;
else
internalerror(2011010304);
end;
end;
procedure thlcgobj.location_force_mmregscalar(list: TAsmList; var l: tlocation; size: tdef; maybeconst: boolean);
var
reg : tregister;
href : treference;
newsize : tdef;
begin
if (l.loc<>LOC_MMREGISTER) and
((l.loc<>LOC_CMMREGISTER) or (not maybeconst)) then
begin
{ if it's in an fpu register, store to memory first }
if (l.loc in [LOC_FPUREGISTER,LOC_CFPUREGISTER]) then
begin
tg.gethltemp(list,size,-1,tt_normal,href);
hlcg.a_loadfpu_reg_ref(list,size,size,l.register,href);
location_reset_ref(l,LOC_REFERENCE,l.size,size.alignment,[]);
l.reference:=href;
end;
{ on ARM, CFP values may be located in integer registers,
and its second_int_to_real() also uses this routine to
force integer (memory) values in an mmregister }
if (l.size in [OS_32,OS_S32]) then
begin
size:=cgsize_orddef(l.size);
newsize:=s32floattype;
end
else if (l.size in [OS_64,OS_S64]) then
begin
size:=cgsize_orddef(l.size);
newsize:=s64floattype;
end
else
newsize:=size;
case size.size of
4:
newsize:=s32floattype;
8:
newsize:=s64floattype;
else
newsize:=size;
end;
reg:=hlcg.getmmregister(list,newsize);
hlcg.a_loadmm_loc_reg(list,size,newsize,l,reg,mms_movescalar);
l.size:=def_cgsize(newsize);
location_freetemp(list,l);
location_reset(l,LOC_MMREGISTER,l.size);
l.register:=reg;
end;
end;
procedure thlcgobj.location_get_data_ref(list: TAsmList; def: tdef; const l: tlocation; var ref: treference; loadref: boolean; alignment: longint);
var
pdef: tdef;
begin
case l.loc of
LOC_REGISTER,
LOC_CREGISTER :
begin
if not loadref then
internalerror(200410231);
reference_reset_base(ref,cpointerdef.getreusable(def),l.register,0,ctempposinvalid,alignment,[]);
end;
LOC_REFERENCE,
LOC_CREFERENCE :
begin
if loadref then
begin
pdef:=cpointerdef.getreusable(def);
reference_reset_base(ref,pdef,getaddressregister(list,voidpointertype),0,ctempposinvalid,alignment,[]);
{ it's a pointer to def }
a_load_ref_reg(list,pdef,pdef,l.reference,ref.base);
end
else
ref:=l.reference;
end;
else
internalerror(200309181);
end;
end;
procedure thlcgobj.maketojumpbool(list: TAsmList; p: tnode);
var
truelabel,
falselabel: tasmlabel;
begin
if p.location.loc<>LOC_JUMP then
begin
current_asmdata.getjumplabel(truelabel);
current_asmdata.getjumplabel(falselabel);
end
else
begin
truelabel:=p.location.truelabel;
falselabel:=p.location.falselabel;
end;
maketojumpboollabels(list,p,truelabel,falselabel);
end;
procedure thlcgobj.maketojumpboollabels(list: TAsmList; p: tnode; truelabel, falselabel: tasmlabel);
var
storepos : tfileposinfo;
begin
if nf_error in p.flags then
exit;
storepos:=current_filepos;
current_filepos:=p.fileinfo;
if is_boolean(p.resultdef) then
begin
if is_constboolnode(p) then
begin
if Tordconstnode(p).value.uvalue<>0 then
a_jmp_always(list,truelabel)
else
a_jmp_always(list,falselabel)
end
else
begin
case p.location.loc of
LOC_SUBSETREG,LOC_CSUBSETREG,
LOC_SUBSETREF,LOC_CSUBSETREF,
LOC_CREGISTER,LOC_REGISTER,LOC_CREFERENCE,LOC_REFERENCE :
begin
a_cmp_const_loc_label(list,p.resultdef,OC_NE,0,p.location,truelabel);
a_jmp_always(list,falselabel);
end;
LOC_JUMP:
begin
if truelabel<>p.location.truelabel then
begin
a_label(list,p.location.truelabel);
a_jmp_always(list,truelabel);
end;
if falselabel<>p.location.falselabel then
begin
a_label(list,p.location.falselabel);
a_jmp_always(list,falselabel);
end;
end;
{$ifdef cpuflags}
LOC_FLAGS :
begin
a_jmp_flags(list,p.location.resflags,truelabel);
a_reg_dealloc(list,NR_DEFAULTFLAGS);
a_jmp_always(list,falselabel);
end;
{$endif cpuflags}
else
begin
printnode(output,p);
internalerror(2011010418);
end;
end;
end;
location_reset_jump(p.location,truelabel,falselabel);
end
else
internalerror(2011010419);
current_filepos:=storepos;
end;
procedure thlcgobj.maybe_change_load_node_reg(list: TAsmList; var n: tnode; reload: boolean);
var
rr: treplaceregrec;
varloc : tai_varloc;
begin
if not (n.location.loc in [LOC_CREGISTER,LOC_CFPUREGISTER,LOC_CMMXREGISTER,LOC_CMMREGISTER]) or
([fc_inflowcontrol,fc_gotolabel,fc_lefthandled] * flowcontrol <> []) then
exit;
rr.old := n.location.register;
rr.ressym := nil;
rr.sym := nil;
rr.oldhi := NR_NO;
case n.location.loc of
LOC_CREGISTER:
begin
{$ifdef cpu64bitalu}
if (n.location.size in [OS_128,OS_S128]) then
begin
rr.oldhi := n.location.register128.reghi;
rr.new := cg.getintregister(current_asmdata.CurrAsmList,OS_INT);
rr.newhi := cg.getintregister(current_asmdata.CurrAsmList,OS_INT);
end
else
{$else cpu64bitalu}
if (n.location.size in [OS_64,OS_S64]) then
begin
rr.oldhi := n.location.register64.reghi;
rr.new := cg.getintregister(current_asmdata.CurrAsmList,OS_32);
rr.newhi := cg.getintregister(current_asmdata.CurrAsmList,OS_32);
end
else
{$endif cpu64bitalu}
if getregtype(rr.old)=R_ADDRESSREGISTER then
rr.new := hlcg.getaddressregister(current_asmdata.CurrAsmList,n.resultdef)
else
rr.new := cg.getintregister(current_asmdata.CurrAsmList,n.location.size);
end;
LOC_CFPUREGISTER:
rr.new := cg.getfpuregister(current_asmdata.CurrAsmList,n.location.size);
{$ifdef SUPPORT_MMX}
LOC_CMMXREGISTER:
rr.new := tcgx86(cg).getmmxregister(current_asmdata.CurrAsmList);
{$endif SUPPORT_MMX}
LOC_CMMREGISTER:
rr.new := cg.getmmregister(current_asmdata.CurrAsmList,n.location.size);
else
exit;
end;
{ self is implicitly returned from constructors, even if there are no
references to it; additionally, funcretsym is not set for constructor
procdefs }
if (current_procinfo.procdef.proctypeoption=potype_constructor) then
rr.ressym:=tsym(current_procinfo.procdef.parast.Find('self'))
else if not is_void(current_procinfo.procdef.returndef) and
assigned(current_procinfo.procdef.funcretsym) and
(tabstractvarsym(current_procinfo.procdef.funcretsym).refs <> 0) then
rr.ressym:=current_procinfo.procdef.funcretsym;
if not foreachnode(n,@do_replace_node_regs,@rr) then
exit;
if reload then
case n.location.loc of
LOC_CREGISTER:
begin
{$ifdef cpu64bitalu}
if (n.location.size in [OS_128,OS_S128]) then
cg128.a_load128_reg_reg(list,n.location.register128,joinreg128(rr.new,rr.newhi))
else
{$else cpu64bitalu}
if (n.location.size in [OS_64,OS_S64]) then
cg64.a_load64_reg_reg(list,n.location.register64,joinreg64(rr.new,rr.newhi))
else
{$endif cpu64bitalu}
a_load_reg_reg(list,n.resultdef,n.resultdef,n.location.register,rr.new);
end;
LOC_CFPUREGISTER:
cg.a_loadfpu_reg_reg(list,n.location.size,n.location.size,n.location.register,rr.new);
{$ifdef SUPPORT_MMX}
LOC_CMMXREGISTER:
cg.a_loadmm_reg_reg(list,OS_M64,OS_M64,n.location.register,rr.new,nil);
{$endif SUPPORT_MMX}
LOC_CMMREGISTER:
a_loadmm_reg_reg(list,n.resultdef,n.resultdef,n.location.register,rr.new,nil);
else
internalerror(2006090920);
end;
{ now that we've change the loadn/temp, also change the node result location }
{$ifdef cpu64bitalu}
if (n.location.size in [OS_128,OS_S128]) then
begin
n.location.register128.reglo := rr.new;
n.location.register128.reghi := rr.newhi;
if assigned(rr.sym) then
begin
varloc:=tai_varloc.create128(rr.sym,rr.new,rr.newhi);
list.concat(varloc);
end;
end
else
{$else cpu64bitalu}
if (n.location.size in [OS_64,OS_S64]) then
begin
n.location.register64.reglo := rr.new;
n.location.register64.reghi := rr.newhi;
if assigned(rr.sym) then
begin
varloc:=tai_varloc.create64(rr.sym,rr.new,rr.newhi);
list.concat(varloc);
end;
end
else
{$endif cpu64bitalu}
begin
n.location.register := rr.new;
if assigned(rr.sym) then
begin
varloc:=tai_varloc.create(rr.sym,rr.new);
list.concat(varloc);
end;
end;
end;
function thlcgobj.do_replace_node_regs(var n: tnode; para: pointer): foreachnoderesult;
var
rr: preplaceregrec absolute para;
begin
result := fen_false;
if (nf_is_funcret in n.flags) and (fc_exit in flowcontrol) then
exit;
case n.nodetype of
loadn:
begin
if (tloadnode(n).symtableentry.typ in [localvarsym,paravarsym,staticvarsym]) and
(tabstractvarsym(tloadnode(n).symtableentry).varoptions * [vo_is_dll_var, vo_is_thread_var] = []) and
not assigned(tloadnode(n).left) and
((tloadnode(n).symtableentry <> rr^.ressym) or
not(fc_exit in flowcontrol)
) and
(tabstractnormalvarsym(tloadnode(n).symtableentry).localloc.loc in [LOC_CREGISTER,LOC_CFPUREGISTER,LOC_CMMXREGISTER,LOC_CMMREGISTER]) and
(tabstractnormalvarsym(tloadnode(n).symtableentry).localloc.register = rr^.old) then
begin
{$ifdef cpu64bitalu}
{ it's possible a 128 bit location was shifted and/xor typecasted }
{ in a 64 bit value, so only 1 register was left in the location }
if (tabstractnormalvarsym(tloadnode(n).symtableentry).localloc.size in [OS_128,OS_S128]) then
if (tabstractnormalvarsym(tloadnode(n).symtableentry).localloc.register128.reghi = rr^.oldhi) then
tabstractnormalvarsym(tloadnode(n).symtableentry).localloc.register128.reghi := rr^.newhi
else
exit;
{$else cpu64bitalu}
{ it's possible a 64 bit location was shifted and/xor typecasted }
{ in a 32 bit value, so only 1 register was left in the location }
if (tabstractnormalvarsym(tloadnode(n).symtableentry).localloc.size in [OS_64,OS_S64]) then
if (tabstractnormalvarsym(tloadnode(n).symtableentry).localloc.register64.reghi = rr^.oldhi) then
tabstractnormalvarsym(tloadnode(n).symtableentry).localloc.register64.reghi := rr^.newhi
else
exit;
{$endif cpu64bitalu}
tabstractnormalvarsym(tloadnode(n).symtableentry).localloc.register := rr^.new;
rr^.sym := tabstractnormalvarsym(tloadnode(n).symtableentry);
result := fen_norecurse_true;
end;
end;
temprefn:
begin
if (ti_valid in ttemprefnode(n).tempflags) and
(ttemprefnode(n).tempinfo^.location.loc in [LOC_CREGISTER,LOC_CFPUREGISTER,LOC_CMMXREGISTER,LOC_CMMREGISTER]) and
(ttemprefnode(n).tempinfo^.location.register = rr^.old) then
begin
{$ifdef cpu64bitalu}
{ it's possible a 128 bit location was shifted and/xor typecasted }
{ in a 64 bit value, so only 1 register was left in the location }
if (ttemprefnode(n).tempinfo^.location.size in [OS_128,OS_S128]) then
if (ttemprefnode(n).tempinfo^.location.register128.reghi = rr^.oldhi) then
ttemprefnode(n).tempinfo^.location.register128.reghi := rr^.newhi
else
exit;
{$else cpu64bitalu}
{ it's possible a 64 bit location was shifted and/xor typecasted }
{ in a 32 bit value, so only 1 register was left in the location }
if (ttemprefnode(n).tempinfo^.location.size in [OS_64,OS_S64]) then
if (ttemprefnode(n).tempinfo^.location.register64.reghi = rr^.oldhi) then
ttemprefnode(n).tempinfo^.location.register64.reghi := rr^.newhi
else
exit;
{$endif cpu64bitalu}
ttemprefnode(n).tempinfo^.location.register := rr^.new;
result := fen_norecurse_true;
end;
end;
{ optimize the searching a bit }
derefn,addrn,
calln,inlinen,casen,
addn,subn,muln,
andn,orn,xorn,
ltn,lten,gtn,gten,equaln,unequaln,
slashn,divn,shrn,shln,notn,
inn,
asn,isn:
result := fen_norecurse_false;
end;
end;
procedure thlcgobj.gen_proc_symbol(list: TAsmList);
var
item,
previtem : TCmdStrListItem;
begin
previtem:=nil;
item := TCmdStrListItem(current_procinfo.procdef.aliasnames.first);
while assigned(item) do
begin
{$ifdef arm}
if GenerateThumbCode or GenerateThumb2Code then
list.concat(tai_directive.create(asd_thumb_func,''));
{$endif arm}
{ "double link" all procedure entry symbols via .reference }
{ directives on darwin, because otherwise the linker }
{ sometimes strips the procedure if only on of the symbols }
{ is referenced }
if assigned(previtem) and
(target_info.system in systems_darwin) then
list.concat(tai_directive.create(asd_reference,item.str));
if (cs_profile in current_settings.moduleswitches) or
{ smart linking using a library requires to promote
all non-nested procedures to AB_GLOBAL
otherwise you get undefined symbol error at linking
for msdos target with -CX option for instance }
(create_smartlink_library and not is_nested_pd(current_procinfo.procdef)) or
(po_global in current_procinfo.procdef.procoptions) then
list.concat(Tai_symbol.createname_global(item.str,AT_FUNCTION,0,current_procinfo.procdef))
else
list.concat(Tai_symbol.createname(item.str,AT_FUNCTION,0,current_procinfo.procdef));
if assigned(previtem) and
(target_info.system in systems_darwin) then
list.concat(tai_directive.create(asd_reference,previtem.str));
if not(af_stabs_use_function_absolute_addresses in target_asm.flags) then
list.concat(Tai_function_name.create(item.str));
previtem:=item;
item := TCmdStrListItem(item.next);
end;
current_procinfo.procdef.procstarttai:=tai(list.last);
end;
procedure thlcgobj.gen_proc_symbol_end(list: TAsmList);
begin
list.concat(Tai_symbol_end.Createname(current_procinfo.procdef.mangledname));
current_procinfo.procdef.procendtai:=tai(list.last);
end;
procedure thlcgobj.handle_external_proc(list: TAsmList; pd: tprocdef; const importname: TSymStr);
begin
{ External declared in implementation, and there was already a
forward (or interface) declaration then we need to generate
a stub that calls the external routine }
if (not pd.forwarddef) and
(pd.hasforward) then
begin
if importname<>'' then
begin
{ add the procedure to the al_procedures }
g_external_wrapper(list,pd,pd.mangledname,importname,true);
end;
{ remove the external stuff, so that the interface crc
doesn't change. This makes the function calls less
efficient, but it means that the interface doesn't
change if the function is ever redirected to another
function or implemented in the unit. }
pd.procoptions:=pd.procoptions-[po_external,po_has_importname,po_has_importdll];
stringdispose(pd.import_name);
stringdispose(pd.import_dll);
pd.import_nr:=0;
end;
end;
procedure thlcgobj.gen_initialize_code(list: TAsmList);
begin
{ initialize global register variables }
case current_procinfo.procdef.proctypeoption of
potype_unitinit,
potype_proginit:
TSymtable(current_module.localsymtable).SymList.ForEachCall(@initialize_regvars,list);
end;
{ initialises temp. ansi/wide string data }
if (current_procinfo.procdef.proctypeoption<>potype_exceptfilter) then
inittempvariables(list);
{$ifdef OLDREGVARS}
load_regvars(list,nil);
{$endif OLDREGVARS}
end;
procedure thlcgobj.gen_finalize_code(list: TAsmList);
var
old_current_procinfo: tprocinfo;
begin
old_current_procinfo:=current_procinfo;
if (current_procinfo.procdef.proctypeoption=potype_exceptfilter) then
begin
if (current_procinfo.parent.finalize_procinfo<>current_procinfo) then
exit;
current_procinfo:=current_procinfo.parent;
end;
{$ifdef OLDREGVARS}
cleanup_regvars(list);
{$endif OLDREGVARS}
{ finalize temporary data }
finalizetempvariables(list);
{ finalize paras data }
if assigned(current_procinfo.procdef.parast) and
not(po_assembler in current_procinfo.procdef.procoptions) then
current_procinfo.procdef.parast.SymList.ForEachCall(@final_paras,list);
current_procinfo:=old_current_procinfo;
end;
procedure thlcgobj.varsym_set_localloc(list: TAsmList; vs: tabstractnormalvarsym);
begin
if cs_asm_source in current_settings.globalswitches then
begin
case vs.initialloc.loc of
LOC_REFERENCE :
begin
if not assigned(vs.initialloc.reference.symbol) then
list.concat(Tai_comment.Create(strpnew('Var '+vs.realname+' located at '+
std_regname(vs.initialloc.reference.base)+tostr_with_plus(vs.initialloc.reference.offset)+
', size='+tcgsize2str(vs.initialloc.size))));
end;
end;
end;
vs.localloc:=vs.initialloc;
end;
procedure thlcgobj.paravarsym_set_initialloc_to_paraloc(vs: tparavarsym);
begin
reference_reset_base(vs.initialloc.reference,voidstackpointertype,tparavarsym(vs).paraloc[calleeside].location^.reference.index,
tparavarsym(vs).paraloc[calleeside].location^.reference.offset,ctempposinvalid,
tparavarsym(vs).paraloc[calleeside].alignment,[]);
end;
procedure thlcgobj.gen_entry_code(list: TAsmList);
begin
{ the actual profile code can clobber some registers,
therefore if the context must be saved, do it before
the actual call to the profile code
}
if (cs_profile in current_settings.moduleswitches) and
not(po_assembler in current_procinfo.procdef.procoptions) then
begin
{ non-win32 can call mcout even in main }
if not (target_info.system in [system_i386_win32,system_i386_wdosx]) or
not (current_procinfo.procdef.proctypeoption=potype_proginit) then
begin
g_profilecode(list);
end;
end;
{ call startup helpers from main program }
if (current_procinfo.procdef.proctypeoption=potype_proginit) then
begin
{ initialize units }
if not(current_module.islibrary) then
{$ifdef AVR}
cg.a_call_name(list,'FPC_INIT_FUNC_TABLE',false)
{$else AVR}
g_call_system_proc(list,'fpc_initializeunits',[],nil)
{$endif AVR}
else
g_call_system_proc(list,'fpc_libinitializeunits',[],nil);
end;
list.concat(Tai_force_line.Create);
{$ifdef OLDREGVARS}
load_regvars(list,nil);
{$endif OLDREGVARS}
end;
procedure thlcgobj.gen_exit_code(list: TAsmList);
begin
{ TODO: create high level version (create compilerproc in system unit,
look up procdef, use hlcgobj.a_call_name()) }
{ call __EXIT for main program }
if (not current_module.islibrary) and
(current_procinfo.procdef.proctypeoption=potype_proginit) then
g_call_system_proc(list,'fpc_do_exit',[],nil);
end;
procedure thlcgobj.inittempvariables(list: TAsmList);
var
hp : ptemprecord;
href : treference;
begin
hp:=tg.templist;
while assigned(hp) do
begin
if hp^.fini and
assigned(hp^.def) and
is_managed_type(hp^.def) then
begin
tg.temp_to_ref(hp,href);
g_initialize(list,hp^.def,href);
end;
hp:=hp^.next;
end;
end;
procedure thlcgobj.finalizetempvariables(list: TAsmList);
var
hp : ptemprecord;
href : treference;
begin
hp:=tg.templist;
while assigned(hp) do
begin
if hp^.fini and
assigned(hp^.def) and
is_managed_type(hp^.def) then
begin
include(current_procinfo.flags,pi_needs_implicit_finally);
tg.temp_to_ref(hp,href);
g_finalize(list,hp^.def,href);
end;
hp:=hp^.next;
end;
end;
procedure thlcgobj.initialize_regvars(p: TObject; arg: pointer);
var
href : treference;
begin
if (tsym(p).typ=staticvarsym) and not(tstaticvarsym(p).noregvarinitneeded) then
begin
{ Static variables can have the initialloc only set to LOC_CxREGISTER
or LOC_INVALID, for explaination see gen_alloc_symtable (PFV) }
case tstaticvarsym(p).initialloc.loc of
LOC_CREGISTER :
begin
{$ifdef cpu64bitalu}
if (tstaticvarsym(p).initialloc.size in [OS_128,OS_S128]) then
cg128.a_load128_const_reg(TAsmList(arg),0,0,tstaticvarsym(p).initialloc.register128)
else
{$else cpu64bitalu}
if (tstaticvarsym(p).initialloc.size in [OS_64,OS_S64]) then
cg64.a_load64_const_reg(TAsmList(arg),0,tstaticvarsym(p).initialloc.register64)
else
{$endif cpu64bitalu}
a_load_const_reg(TAsmList(arg),tstaticvarsym(p).vardef,0,
tstaticvarsym(p).initialloc.register);
end;
LOC_CMMREGISTER :
{ clear the whole register }
a_opmm_reg_reg(TAsmList(arg),OP_XOR,tstaticvarsym(p).vardef,
tstaticvarsym(p).initialloc.register,
tstaticvarsym(p).initialloc.register,
nil);
LOC_CFPUREGISTER :
begin
{ initialize fpu regvar by loading from memory }
reference_reset_symbol(href,
current_asmdata.RefAsmSymbol(tstaticvarsym(p).mangledname,AT_DATA), 0,
var_align(tstaticvarsym(p).vardef.alignment),[]);
a_loadfpu_ref_reg(TAsmList(arg), tstaticvarsym(p).vardef,
tstaticvarsym(p).vardef, href, tstaticvarsym(p).initialloc.register);
end;
LOC_INVALID :
;
else
internalerror(200410124);
end;
end;
end;
procedure thlcgobj.final_paras(p: TObject; arg: pointer);
var
list : TAsmList;
href : treference;
hsym : tparavarsym;
eldef : tdef;
highloc : tlocation;
begin
if not(tsym(p).typ=paravarsym) then
exit;
list:=TAsmList(arg);
if is_managed_type(tparavarsym(p).vardef) then
begin
if (tparavarsym(p).varspez=vs_value) then
begin
include(current_procinfo.flags,pi_needs_implicit_finally);
location_get_data_ref(list,tparavarsym(p).vardef,tparavarsym(p).localloc,href,
is_open_array(tparavarsym(p).vardef) or
((target_info.system in systems_caller_copy_addr_value_para) and
paramanager.push_addr_param(vs_value,tparavarsym(p).vardef,current_procinfo.procdef.proccalloption)),
sizeof(pint));
if is_open_array(tparavarsym(p).vardef) then
begin
if paramanager.push_high_param(tparavarsym(p).varspez,tparavarsym(p).vardef,current_procinfo.procdef.proccalloption) then
begin
hsym:=tparavarsym(get_high_value_sym(tparavarsym(p)));
if not assigned(hsym) then
internalerror(201003032);
highloc:=hsym.initialloc
end
else
highloc.loc:=LOC_INVALID;
eldef:=tarraydef(tparavarsym(p).vardef).elementdef;
g_ptrtypecast_ref(list,cpointerdef.getreusable(tparavarsym(p).vardef),cpointerdef.getreusable(eldef),href);
g_array_rtti_helper(list,eldef,href,highloc,'fpc_finalize_array');
end
else
g_finalize(list,tparavarsym(p).vardef,href);
end;
end;
{ open arrays can contain elements requiring init/final code, so the else has been removed here }
if not(target_info.system in systems_caller_copy_addr_value_para) and
(tparavarsym(p).varspez=vs_value) and
(is_open_array(tparavarsym(p).vardef) or
is_array_of_const(tparavarsym(p).vardef)) then
begin
{ cdecl functions don't have a high pointer so it is not possible to generate
a local copy }
if not(current_procinfo.procdef.proccalloption in cdecl_pocalls) then
g_releasevaluepara_openarray(list,tarraydef(tparavarsym(p).vardef),tparavarsym(p).localloc);
end;
end;
{ generates the code for incrementing the reference count of parameters and
initialize out parameters }
{ generates the code for incrementing the reference count of parameters and
initialize out parameters }
procedure thlcgobj.init_paras(p:TObject;arg:pointer);
var
href : treference;
hsym : tparavarsym;
eldef : tdef;
list : TAsmList;
highloc : tlocation;
needs_inittable : boolean;
begin
list:=TAsmList(arg);
if (tsym(p).typ=paravarsym) then
begin
needs_inittable:=is_managed_type(tparavarsym(p).vardef);
case tparavarsym(p).varspez of
vs_value :
if needs_inittable then
begin
{ variants are already handled by the call to fpc_variant_copy_overwrite if
they are passed by reference }
if not((tparavarsym(p).vardef.typ=variantdef) and
paramanager.push_addr_param(tparavarsym(p).varspez,tparavarsym(p).vardef,current_procinfo.procdef.proccalloption)) then
begin
location_get_data_ref(list,tparavarsym(p).vardef,tparavarsym(p).initialloc,href,
is_open_array(tparavarsym(p).vardef) or
((target_info.system in systems_caller_copy_addr_value_para) and
paramanager.push_addr_param(vs_value,tparavarsym(p).vardef,current_procinfo.procdef.proccalloption)),
sizeof(pint));
if is_open_array(tparavarsym(p).vardef) then
begin
if paramanager.push_high_param(tparavarsym(p).varspez,tparavarsym(p).vardef,current_procinfo.procdef.proccalloption) then
begin
hsym:=tparavarsym(get_high_value_sym(tparavarsym(p)));
if not assigned(hsym) then
internalerror(201003032);
highloc:=hsym.initialloc
end
else
highloc.loc:=LOC_INVALID;
{ open arrays do not contain correct element count in their rtti,
the actual count must be passed separately. }
eldef:=tarraydef(tparavarsym(p).vardef).elementdef;
g_ptrtypecast_ref(list,cpointerdef.getreusable(tparavarsym(p).vardef),cpointerdef.getreusable(eldef),href);
g_array_rtti_helper(list,eldef,href,highloc,'fpc_addref_array');
end
else
g_incrrefcount(list,tparavarsym(p).vardef,href);
end;
end;
vs_out :
begin
if needs_inittable then
begin
{ we have no idea about the alignment at the callee side,
and the user also cannot specify "unaligned" here, so
assume worst case }
location_get_data_ref(list,tparavarsym(p).vardef,tparavarsym(p).initialloc,href,true,1);
if needs_inittable then
begin
if is_open_array(tparavarsym(p).vardef) then
begin
if paramanager.push_high_param(tparavarsym(p).varspez,tparavarsym(p).vardef,current_procinfo.procdef.proccalloption) then
begin
hsym:=tparavarsym(get_high_value_sym(tparavarsym(p)));
if not assigned(hsym) then
internalerror(201003032);
highloc:=hsym.initialloc
end
else
highloc.loc:=LOC_INVALID;
eldef:=tarraydef(tparavarsym(p).vardef).elementdef;
g_ptrtypecast_ref(list,cpointerdef.getreusable(tparavarsym(p).vardef),cpointerdef.getreusable(eldef),href);
g_array_rtti_helper(list,eldef,href,highloc,'fpc_initialize_array');
end
else
g_initialize(list,tparavarsym(p).vardef,href);
end;
end;
end;
end;
end;
end;
procedure thlcgobj.gen_load_para_value(list: TAsmList);
var
i: longint;
currpara: tparavarsym;
begin
if (po_assembler in current_procinfo.procdef.procoptions) or
{ exceptfilters have a single hidden 'parentfp' parameter, which
is handled by tcg.g_proc_entry. }
(current_procinfo.procdef.proctypeoption=potype_exceptfilter) then
exit;
{ Copy parameters to local references/registers }
for i:=0 to current_procinfo.procdef.paras.count-1 do
begin
currpara:=tparavarsym(current_procinfo.procdef.paras[i]);
{ don't use currpara.vardef, as this will be wrong in case of
call-by-reference parameters (it won't contain the pointer) }
gen_load_cgpara_loc(list,currpara.paraloc[calleeside].def,currpara.paraloc[calleeside],currpara.initialloc,paramanager.param_use_paraloc(currpara.paraloc[calleeside]));
end;
{ generate copies of call by value parameters, must be done before
the initialization and body is parsed because the refcounts are
incremented using the local copies }
current_procinfo.procdef.parast.SymList.ForEachCall(@g_copyvalueparas,list);
if not(po_assembler in current_procinfo.procdef.procoptions) then
begin
{ initialize refcounted paras, and trash others. Needed here
instead of in gen_initialize_code, because when a reference is
intialised or trashed while the pointer to that reference is kept
in a regvar, we add a register move and that one again has to
come after the parameter loading code as far as the register
allocator is concerned }
current_procinfo.procdef.parast.SymList.ForEachCall(@init_paras,list);
end;
end;
procedure thlcgobj.g_copyvalueparas(p: TObject; arg: pointer);
var
href : treference;
hreg : tregister;
list : TAsmList;
hsym : tparavarsym;
l : longint;
highloc,
localcopyloc : tlocation;
begin
list:=TAsmList(arg);
if (tsym(p).typ=paravarsym) and
((vo_has_local_copy in tparavarsym(p).varoptions) or
(not(target_info.system in systems_caller_copy_addr_value_para) and
(is_open_array(tparavarsym(p).vardef) or
is_array_of_const(tparavarsym(p).vardef)) and
(tparavarsym(p).varspez=vs_value))) then
begin
{ we have no idea about the alignment at the caller side }
location_get_data_ref(list,tparavarsym(p).vardef,tparavarsym(p).initialloc,href,true,1);
if is_open_array(tparavarsym(p).vardef) or
is_array_of_const(tparavarsym(p).vardef) then
begin
{ cdecl functions don't have a high pointer so it is not possible to generate
a local copy }
if not(current_procinfo.procdef.proccalloption in cdecl_pocalls) then
begin
if paramanager.push_high_param(tparavarsym(p).varspez,tparavarsym(p).vardef,current_procinfo.procdef.proccalloption) then
begin
hsym:=tparavarsym(get_high_value_sym(tparavarsym(p)));
if not assigned(hsym) then
internalerror(2011020506);
highloc:=hsym.initialloc
end
else
highloc.loc:=LOC_INVALID;
hreg:=getaddressregister(list,voidpointertype);
if not is_packed_array(tparavarsym(p).vardef) then
g_copyvaluepara_openarray(list,href,highloc,tarraydef(tparavarsym(p).vardef),hreg)
else
internalerror(2011020507);
// cg.g_copyvaluepara_packedopenarray(list,href,hsym.intialloc,tarraydef(tparavarsym(p).vardef).elepackedbitsize,hreg);
a_load_reg_loc(list,cpointerdef.getreusable(tparavarsym(p).vardef),cpointerdef.getreusable(tparavarsym(p).vardef),hreg,tparavarsym(p).initialloc);
end;
end
else
begin
{ Allocate space for the local copy }
l:=tparavarsym(p).getsize;
localcopyloc.loc:=LOC_REFERENCE;
localcopyloc.size:=int_cgsize(l);
tg.GetLocal(list,l,tparavarsym(p).vardef,localcopyloc.reference);
{ Copy data }
if is_shortstring(tparavarsym(p).vardef) then
begin
{ this code is only executed before the code for the body and the entry/exit code is generated
so we're allowed to include pi_do_call here; after pass1 is run, this isn't allowed anymore
}
include(current_procinfo.flags,pi_do_call);
g_copyshortstring(list,href,localcopyloc.reference,tstringdef(tparavarsym(p).vardef))
end
else if tparavarsym(p).vardef.typ=variantdef then
begin
{ this code is only executed before the code for the body and the entry/exit code is generated
so we're allowed to include pi_do_call here; after pass1 is run, this isn't allowed anymore
}
include(current_procinfo.flags,pi_do_call);
g_copyvariant(list,href,localcopyloc.reference,tvariantdef(tparavarsym(p).vardef))
end
else
begin
{ pass proper alignment info }
localcopyloc.reference.alignment:=tparavarsym(p).vardef.alignment;
g_concatcopy(list,tparavarsym(p).vardef,href,localcopyloc.reference);
end;
{ update localloc of varsym }
if tparavarsym(p).localloc.loc in [LOC_REFERENCE,LOC_CREFERENCE] then
tg.Ungetlocal(list,tparavarsym(p).localloc.reference);
tparavarsym(p).localloc:=localcopyloc;
tparavarsym(p).initialloc:=localcopyloc;
end;
end;
end;
procedure thlcgobj.gen_loadfpu_loc_cgpara(list: TAsmList; size: tdef; const l: tlocation; const cgpara: tcgpara; locintsize: longint);
var
tmploc: tlocation;
begin
case l.loc of
LOC_MMREGISTER,
LOC_CMMREGISTER:
case cgpara.location^.loc of
LOC_REFERENCE,
LOC_CREFERENCE,
LOC_MMREGISTER,
LOC_CMMREGISTER,
LOC_REGISTER,
LOC_CREGISTER :
a_loadmm_reg_cgpara(list,size,l.register,cgpara,mms_movescalar);
LOC_FPUREGISTER,
LOC_CFPUREGISTER:
begin
tmploc:=l;
location_force_fpureg(list,tmploc,size,false);
a_loadfpu_reg_cgpara(list,size,tmploc.register,cgpara);
end;
else
internalerror(200204249);
end;
LOC_FPUREGISTER,
LOC_CFPUREGISTER:
case cgpara.location^.loc of
LOC_MMREGISTER,
LOC_CMMREGISTER:
begin
tmploc:=l;
location_force_mmregscalar(list,tmploc,size,false);
a_loadmm_reg_cgpara(list,size,tmploc.register,cgpara,mms_movescalar);
end;
{ Some targets pass floats in normal registers }
LOC_REGISTER,
LOC_CREGISTER,
LOC_REFERENCE,
LOC_CREFERENCE,
LOC_FPUREGISTER,
LOC_CFPUREGISTER:
a_loadfpu_reg_cgpara(list,size,l.register,cgpara);
else
internalerror(2011010210);
end;
LOC_REFERENCE,
LOC_CREFERENCE:
case cgpara.location^.loc of
LOC_MMREGISTER,
LOC_CMMREGISTER:
a_loadmm_ref_cgpara(list,size,l.reference,cgpara,mms_movescalar);
{ Some targets pass floats in normal registers }
LOC_REGISTER,
LOC_CREGISTER,
LOC_REFERENCE,
LOC_CREFERENCE,
LOC_FPUREGISTER,
LOC_CFPUREGISTER:
a_loadfpu_ref_cgpara(list,size,l.reference,cgpara);
else
internalerror(2011010211);
end;
LOC_REGISTER,
LOC_CREGISTER :
a_load_loc_cgpara(list,size,l,cgpara);
else
internalerror(2011010212);
end;
end;
procedure thlcgobj.gen_load_uninitialized_function_result(list: TAsmList; pd: tprocdef; resdef: tdef; const resloc: tcgpara);
begin
{ do nothing by default }
end;
procedure thlcgobj.gen_load_loc_function_result(list: TAsmList; vardef: tdef; const l: tlocation);
begin
gen_load_loc_cgpara(list,vardef,l,current_procinfo.procdef.funcretloc[calleeside]);
end;
procedure thlcgobj.gen_load_loc_cgpara(list: TAsmList; vardef: tdef; const l: tlocation; const cgpara: tcgpara);
var
tmploc: tlocation;
begin
{ skip e.g. empty records }
if (cgpara.location^.loc = LOC_VOID) then
exit;
{ Handle Floating point types differently
This doesn't depend on emulator settings, emulator settings should
be handled by cpupara }
if (vardef.typ=floatdef) or
{ some ABIs return certain records in an fpu register }
(l.loc in [LOC_FPUREGISTER,LOC_CFPUREGISTER]) or
(assigned(cgpara.location) and
(cgpara.Location^.loc in [LOC_FPUREGISTER,LOC_CFPUREGISTER])) then
begin
gen_loadfpu_loc_cgpara(list,vardef,l,cgpara,vardef.size);
exit;
end;
{ in case of multiple locations, force the source to memory as only
a_load_ref_cgpara supports multiple locations }
if assigned(cgpara.location^.next) and
not(l.loc in [LOC_REFERENCE,LOC_CREFERENCE]) then
begin
tmploc:=l;
location_force_mem(list,tmploc,vardef);
a_load_loc_cgpara(list,vardef,tmploc,cgpara);
location_freetemp(list,tmploc);
exit;
end;
case l.loc of
LOC_CONSTANT,
LOC_REGISTER,
LOC_CREGISTER,
LOC_REFERENCE,
LOC_CREFERENCE :
begin
a_load_loc_cgpara(list,vardef,l,cgpara);
end;
LOC_MMREGISTER,
LOC_CMMREGISTER:
begin
if use_vectorfpu(vardef) then
a_loadmm_loc_cgpara(list,vardef,l,cgpara,mms_movescalar)
else
{ no vector support yet }
internalerror(2012071212);
{
cg.a_loadmm_loc_cgpara(list,l,cgpara,nil);
}
end;
else
internalerror(2011010213);
end;
end;
procedure thlcgobj.gen_load_cgpara_loc(list: TAsmList; vardef: tdef; const para: TCGPara; var destloc: tlocation; reusepara: boolean);
var
href : treference;
begin
para.check_simple_location;
{ skip e.g. empty records }
if (para.location^.loc = LOC_VOID) then
exit;
case destloc.loc of
LOC_REFERENCE :
begin
{ If the parameter location is reused we don't need to copy
anything }
if not reusepara then
begin
case para.location^.loc of
LOC_REFERENCE,LOC_CREFERENCE:
begin
reference_reset_base(href,voidstackpointertype,para.location^.reference.index,para.location^.reference.offset,ctempposinvalid,para.alignment,[]);
a_load_ref_ref(list,para.def,para.def,href,destloc.reference);
end;
else
internalerror(2013102301);
end;
end;
end;
{ TODO other possible locations }
else
internalerror(2011010308);
end;
end;
procedure thlcgobj.gen_load_return_value(list: TAsmList);
var
ressym : tabstractnormalvarsym;
retdef : tdef;
begin
{ Is the loading needed? }
if is_void(current_procinfo.procdef.returndef) or
(
(po_assembler in current_procinfo.procdef.procoptions) and
(not(assigned(current_procinfo.procdef.funcretsym)) or
(tabstractvarsym(current_procinfo.procdef.funcretsym).refs=0) or
(po_nostackframe in current_procinfo.procdef.procoptions))
) then
exit;
{ constructors return self }
if (current_procinfo.procdef.proctypeoption=potype_constructor) then
begin
ressym:=tabstractnormalvarsym(current_procinfo.procdef.parast.Find('self'));
retdef:=ressym.vardef;
{ and TP-style constructors return a pointer to self }
if is_object(ressym.vardef) then
retdef:=cpointerdef.getreusable(retdef);
end
else
begin
ressym:=tabstractnormalvarsym(current_procinfo.procdef.funcretsym);
retdef:=ressym.vardef;
end;
if (ressym.refs>0) or
is_managed_type(retdef) then
begin
{ was: don't do anything if funcretloc.loc in [LOC_INVALID,LOC_REFERENCE] }
if not paramanager.ret_in_param(current_procinfo.procdef.returndef,current_procinfo.procdef) then
gen_load_loc_function_result(list,retdef,ressym.localloc);
end
else
gen_load_uninitialized_function_result(list,current_procinfo.procdef,retdef,current_procinfo.procdef.funcretloc[calleeside])
end;
procedure thlcgobj.gen_stack_check_size_para(list: TAsmList);
var
paraloc1 : tcgpara;
pd : tprocdef;
begin
pd:=search_system_proc('fpc_stackcheck');
paraloc1.init;
paramanager.getintparaloc(current_asmdata.CurrAsmList,pd,1,paraloc1);
hlcg.a_load_const_cgpara(list,paraloc1.def,current_procinfo.calc_stackframe_size,paraloc1);
paramanager.freecgpara(list,paraloc1);
paraloc1.done;
end;
procedure thlcgobj.gen_stack_check_call(list: TAsmList);
var
paraloc1 : tcgpara;
pd : tprocdef;
begin
pd:=search_system_proc('fpc_stackcheck');
paraloc1.init;
{ The parameter to fpc_stackcheck is loaded seperately via
gen_stack_check_size_para() }
paramanager.getintparaloc(list,pd,1,paraloc1);
paramanager.freecgpara(list,paraloc1);
{ Call the helper }
hlcg.g_call_system_proc(list,pd,[@paraloc1],nil);
paraloc1.done;
end;
procedure thlcgobj.record_generated_code_for_procdef(pd: tprocdef; code, data: TAsmList);
var
alt: TAsmListType;
begin
if not(po_assembler in pd.procoptions) then
alt:=al_procedures
else
alt:=al_pure_assembler;
{ add the procedure to the al_procedures }
maybe_new_object_file(current_asmdata.asmlists[alt]);
new_section(current_asmdata.asmlists[alt],sec_code,lower(pd.mangledname),getprocalign);
current_asmdata.asmlists[alt].concatlist(code);
{ save local data (casetable) also in the same file }
if assigned(data) and
(not data.empty) then
current_asmdata.asmlists[alt].concatlist(data);
end;
function thlcgobj.g_call_system_proc(list: TAsmList; const procname: string; const paras: array of pcgpara; forceresdef: tdef): tcgpara;
var
pd: tprocdef;
begin
pd:=search_system_proc(procname);
pd.init_paraloc_info(callerside);
if systemunit<>current_module.globalsymtable then
current_module.addimportedsym(pd.procsym);
result:=g_call_system_proc_intern(list,pd,paras,forceresdef);
end;
function thlcgobj.g_call_system_proc(list: TAsmList; pd: tprocdef; const paras: array of pcgpara; forceresdef: tdef): tcgpara;
begin
{ separate non-virtual routine to make it clear that the routine to
override, if any, is g_call_system_proc_intern (and that none of
the g_call_system_proc variants should be made virtual) }
pd.init_paraloc_info(callerside);
if systemunit<>current_module.globalsymtable then
current_module.addimportedsym(pd.procsym);
result:=g_call_system_proc_intern(list,pd,paras,forceresdef);
end;
function thlcgobj.g_call_system_proc_intern(list: TAsmList; pd: tprocdef; const paras: array of pcgpara; forceresdef: tdef): tcgpara;
begin
allocallcpuregisters(list);
result:=a_call_name(list,pd,pd.mangledname,paras,forceresdef,false);
deallocallcpuregisters(list);
end;
end.
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